Fundamental Boolean model Example

Example described in the paper 'A Novel Data-Driven Boolean Model for Genetic Regulatory Networks' (Chen, L., etc., 2018)

data(Leukeamia_Networks)

Format

An object of class 'list';

References

Chen et al.(2018), Front. Physiol., 25 September 2018, (Front. Physiol.)

Examples

data(Leukeamia_Networks)
Leukeamia_Networks
#> Fundamental Boolean Network with  285 genes
#> Genes involved:
#> ABHD17B, AKAP12, ANLN, ANP32E, APITD1-CORT, ARPP21, ARRDC3, ASF1B, ASPM, ATAD2, AURKA, AURKB, B3GNT2, BCAT1, BCL10, BCL2L11, BIRC3, BIRC5, BMF, BRCA1, BRIP1, BTG1, BTNL9, BUB1, BUB1B, BYSL, C4orf46, C5orf24, CCDC34, CCDC86, CCNA2, CCNB1, CCNB2, CCNE2, CCNL1, CCR1, CD53, CDC20, CDC42EP3, CDC45, CDC6, CDCA2, CDCA3, CDCA5, CDK1, CDK6, CDKN3, CDT1, CELF2, CENPA, CENPE, CENPF, CENPH, CENPK, CENPN, CENPU, CENPV, CENPW, CEP55, CHEK1, CKAP2, CKAP2L, CKS1B, CLEC2B, CLN8, CPM, CRNDE, DDIT4, DEFA1, DENND3, DEPDC1, DEPDC1B, DFNA5, DHFR, DHX9, DLGAP5, DPEP1, DSCC1, DTL, E2F7, E2F8, ECT2, EGR1, ELL2, EMP1, EPPK1, F13A1, FABP5, FAM72C, FANCI, FCER1G, FCGR3B, FEN1, FGD2, FGL2, FGR, FH, FOXM1, FUS, GBP4, GGH, GIMAP4, GIMAP7, GINS1, GINS2, GSN, GVINP1, HBB, HBG1, HELLS, HIST4H4, HJURP, HMMR, HRK, HSP90AB1, ID2, ID3, IFNGR1, IGH, IGLC1, IGLL1, IL18R1, IL18RAP, IL1B, IL27RA, IL6ST, IQGAP3, IRAK3, ISG20, ITGAM, ITGB2-AS1, ITPKB, KCNK12, KIAA0101, KIF11, KIF14, KIF15, KIF18A, KIF18B, KIF20A, KIF23, KIF26A, KIF2C, KIF4A, KLF9, KNL1, LEF1, LGALS3, LILRA1, LILRB2, LOC100130872, LOC100505650, LOC100996643, LOC285097, LOC728175, LY96, LYZ, MAD2L1, MCM10, MCM4, MCM5, MCM7, MDK, MDM2, MELK, METTL7A, MIR4683, MIR6845, MIR8071-1, MKI67, MND1, MNDA, MPV17L, MS4A1, MS4A4A, MS4A7, MSH6, MTHFD2, MTSS1, MYRIP, NCAPG, NCAPH, NEAT1, NEDD9, NEK2, NME1, NPCDR1, NUF2, NUSAP1, OIP5, P2RX5, P2RY14, PAICS, PBK, PCNA, PDE4B, PFKFB2, PHF19, PIK3IP1, PLK4, POLE2, POLQ, POU4F1, PPBP, PPIF, PPP1R16B, PRDM1, PRPS2, PRR11, PSPH, PTP4A1, PTTG1, RAB31, RAD51, RAD51AP1, RAG1, RAG2, RASSF4, RBM14, RBMS3, RCC1, RFC3, RHOBTB3, RMI2, RNASET2, RPS6KA2, RRM2, S100A11, S100A8, SCML4, SELENOI, SEMA4D, SERPINA1, SERPINB9, SESN1, SHCBP1, SIK1, SKP2, SLA, SLC22A23, SMAP2, SMC2, SMIM3, SNORA21, SNORD3B-1, SNTB2, SNX10, SNX29P2, SOCS1, SOS1, SQLE, STAB1, STIL, SUV39H2, TARSL2, TBXA2R, TCF19, TENM4, TIMELESS, TIPIN, TK1, TMEM100, TMEM2, TMEM97, TNFRSF21, TNFSF8, TOP2A, TPX2, TRIB1, TRIP13, TTK, TUBA4A, TXNIP, TYMS, UBE2C, UBE2T, WASF1, WDHD1, WDR76, WFS1, ZBTB16, ZFP36L2, ZNF367, ZWINT, FKBP5
#> 
#> Networks:
#> Multiple Transition Functions for ABHD17B with decay value = 1:
#> ABHD17B_1_Activator: ABHD17B = B3GNT2 (Confidence: 1, TimeStep: 1)
#> ABHD17B_2_Activator: ABHD17B = BMF (Confidence: 1, TimeStep: 1)
#> ABHD17B_3_Activator: ABHD17B = ABHD17B&!SEMA4D (Confidence: 1, TimeStep: 1)
#> ABHD17B_4_Activator: ABHD17B = DHX9 (Confidence: 1, TimeStep: 2)
#> ABHD17B_5_Activator: ABHD17B = HSP90AB1 (Confidence: 1, TimeStep: 2)
#> ABHD17B_1_Inhibitor: ABHD17B = !B3GNT2 (Confidence: 1, TimeStep: 2)
#> ABHD17B_2_Inhibitor: ABHD17B = !ABHD17B (Confidence: 1, TimeStep: 2)
#> ABHD17B_3_Inhibitor: ABHD17B = IL18RAP (Confidence: 1, TimeStep: 2)
#> ABHD17B_4_Inhibitor: ABHD17B = SEMA4D (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for AKAP12 with decay value = 1:
#> AKAP12_1_Activator: AKAP12 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> AKAP12_2_Activator: AKAP12 = AKAP12&RAG1 (Confidence: 1, TimeStep: 1)
#> AKAP12_3_Activator: AKAP12 = AKAP12&TMEM2 (Confidence: 1, TimeStep: 1)
#> AKAP12_4_Activator: AKAP12 = IGLL1&IRAK3 (Confidence: 1, TimeStep: 1)
#> AKAP12_5_Activator: AKAP12 = !CENPV&DPEP1 (Confidence: 1, TimeStep: 1)
#> AKAP12_1_Inhibitor: AKAP12 = !AKAP12 (Confidence: 1, TimeStep: 1)
#> AKAP12_2_Inhibitor: AKAP12 = !TMEM2 (Confidence: 1, TimeStep: 1)
#> AKAP12_3_Inhibitor: AKAP12 = !IGLL1 (Confidence: 1, TimeStep: 1)
#> AKAP12_4_Inhibitor: AKAP12 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> AKAP12_5_Inhibitor: AKAP12 = !RAG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ANLN with decay value = 1:
#> ANLN_1_Activator: ANLN = ATAD2 (Confidence: 1, TimeStep: 1)
#> ANLN_2_Activator: ANLN = BIRC5 (Confidence: 1, TimeStep: 1)
#> ANLN_3_Activator: ANLN = BUB1 (Confidence: 1, TimeStep: 1)
#> ANLN_4_Activator: ANLN = CCNA2 (Confidence: 1, TimeStep: 1)
#> ANLN_5_Activator: ANLN = CDCA5 (Confidence: 1, TimeStep: 1)
#> ANLN_1_Inhibitor: ANLN = !ATAD2 (Confidence: 1, TimeStep: 1)
#> ANLN_2_Inhibitor: ANLN = !BIRC5 (Confidence: 1, TimeStep: 1)
#> ANLN_3_Inhibitor: ANLN = !BUB1 (Confidence: 1, TimeStep: 1)
#> ANLN_4_Inhibitor: ANLN = !CCNA2 (Confidence: 1, TimeStep: 1)
#> ANLN_5_Inhibitor: ANLN = !CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ANP32E with decay value = 1:
#> ANP32E_1_Activator: ANP32E = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ANP32E_2_Activator: ANP32E = ASF1B (Confidence: 1, TimeStep: 1)
#> ANP32E_3_Activator: ANP32E = AURKA (Confidence: 1, TimeStep: 1)
#> ANP32E_4_Activator: ANP32E = !BTG1 (Confidence: 1, TimeStep: 1)
#> ANP32E_5_Activator: ANP32E = CCDC34 (Confidence: 1, TimeStep: 1)
#> ANP32E_1_Inhibitor: ANP32E = !CENPF (Confidence: 1, TimeStep: 1)
#> ANP32E_2_Inhibitor: ANP32E = !DEPDC1B (Confidence: 1, TimeStep: 1)
#> ANP32E_3_Inhibitor: ANP32E = !NEK2 (Confidence: 1, TimeStep: 1)
#> ANP32E_4_Inhibitor: ANP32E = !ANP32E (Confidence: 1, TimeStep: 1)
#> ANP32E_5_Inhibitor: ANP32E = !FH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for APITD1-CORT with decay value = 1:
#> APITD1-CORT_1_Activator: APITD1-CORT = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_2_Activator: APITD1-CORT = ASF1B (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_3_Activator: APITD1-CORT = AURKA (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_4_Activator: APITD1-CORT = !BTG1 (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_5_Activator: APITD1-CORT = CCDC34 (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_1_Inhibitor: APITD1-CORT = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_2_Inhibitor: APITD1-CORT = !ASF1B (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_3_Inhibitor: APITD1-CORT = !AURKA (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_4_Inhibitor: APITD1-CORT = BTG1 (Confidence: 1, TimeStep: 1)
#> APITD1-CORT_5_Inhibitor: APITD1-CORT = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ARPP21 with decay value = 1:
#> ARPP21_1_Activator: ARPP21 = AKAP12&P2RY14 (Confidence: 1, TimeStep: 1)
#> ARPP21_2_Activator: ARPP21 = ID2&!ITPKB (Confidence: 1, TimeStep: 1)
#> ARPP21_3_Activator: ARPP21 = !CENPH&KCNK12 (Confidence: 1, TimeStep: 1)
#> ARPP21_4_Activator: ARPP21 = !FH&KCNK12 (Confidence: 1, TimeStep: 1)
#> ARPP21_5_Activator: ARPP21 = KCNK12&P2RY14 (Confidence: 1, TimeStep: 1)
#> ARPP21_1_Inhibitor: ARPP21 = !RAG1 (Confidence: 1, TimeStep: 1)
#> ARPP21_2_Inhibitor: ARPP21 = !AKAP12&!ARPP21 (Confidence: 1, TimeStep: 1)
#> ARPP21_3_Inhibitor: ARPP21 = !BMF&!LOC285097 (Confidence: 1, TimeStep: 1)
#> ARPP21_4_Inhibitor: ARPP21 = !LOC285097&!NPCDR1 (Confidence: 1, TimeStep: 1)
#> ARPP21_5_Inhibitor: ARPP21 = !AKAP12&!RAG2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ARRDC3 with decay value = 1:
#> ARRDC3_1_Activator: ARRDC3 = !B3GNT2&PRDM1 (Confidence: 1, TimeStep: 1)
#> ARRDC3_2_Activator: ARRDC3 = !B3GNT2&SOCS1 (Confidence: 1, TimeStep: 1)
#> ARRDC3_3_Activator: ARRDC3 = ARRDC3&FGL2 (Confidence: 1, TimeStep: 1)
#> ARRDC3_4_Activator: ARRDC3 = ARRDC3&PPBP (Confidence: 1, TimeStep: 1)
#> ARRDC3_5_Activator: ARRDC3 = !EMP1&FGL2 (Confidence: 1, TimeStep: 1)
#> ARRDC3_1_Inhibitor: ARRDC3 = POU4F1 (Confidence: 1, TimeStep: 1)
#> ARRDC3_2_Inhibitor: ARRDC3 = !SNX10 (Confidence: 1, TimeStep: 1)
#> ARRDC3_3_Inhibitor: ARRDC3 = !IL18RAP&!TNFSF8 (Confidence: 1, TimeStep: 1)
#> ARRDC3_4_Inhibitor: ARRDC3 = ID3&PRPS2 (Confidence: 1, TimeStep: 1)
#> ARRDC3_5_Inhibitor: ARRDC3 = !IL18R1&!TNFSF8 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ASF1B with decay value = 1:
#> ASF1B_1_Activator: ASF1B = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ASF1B_2_Activator: ASF1B = ASF1B (Confidence: 1, TimeStep: 1)
#> ASF1B_3_Activator: ASF1B = AURKA (Confidence: 1, TimeStep: 1)
#> ASF1B_4_Activator: ASF1B = !BTG1 (Confidence: 1, TimeStep: 1)
#> ASF1B_5_Activator: ASF1B = CCDC34 (Confidence: 1, TimeStep: 1)
#> ASF1B_1_Inhibitor: ASF1B = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ASF1B_2_Inhibitor: ASF1B = !ASF1B (Confidence: 1, TimeStep: 1)
#> ASF1B_3_Inhibitor: ASF1B = !AURKA (Confidence: 1, TimeStep: 1)
#> ASF1B_4_Inhibitor: ASF1B = BTG1 (Confidence: 1, TimeStep: 1)
#> ASF1B_5_Inhibitor: ASF1B = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ASPM with decay value = 1:
#> ASPM_1_Activator: ASPM = CENPH (Confidence: 1, TimeStep: 1)
#> ASPM_2_Activator: ASPM = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ASPM_3_Activator: ASPM = ASF1B (Confidence: 1, TimeStep: 1)
#> ASPM_4_Activator: ASPM = AURKA (Confidence: 1, TimeStep: 1)
#> ASPM_5_Activator: ASPM = !BTG1 (Confidence: 1, TimeStep: 1)
#> ASPM_1_Inhibitor: ASPM = !FH (Confidence: 1, TimeStep: 1)
#> ASPM_2_Inhibitor: ASPM = !NUSAP1 (Confidence: 1, TimeStep: 1)
#> ASPM_3_Inhibitor: ASPM = !RFC3 (Confidence: 1, TimeStep: 1)
#> ASPM_4_Inhibitor: ASPM = !NUF2 (Confidence: 1, TimeStep: 1)
#> ASPM_5_Inhibitor: ASPM = !KIF11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ATAD2 with decay value = 1:
#> ATAD2_1_Activator: ATAD2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ATAD2_2_Activator: ATAD2 = ASF1B (Confidence: 1, TimeStep: 1)
#> ATAD2_3_Activator: ATAD2 = AURKA (Confidence: 1, TimeStep: 1)
#> ATAD2_4_Activator: ATAD2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> ATAD2_5_Activator: ATAD2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> ATAD2_1_Inhibitor: ATAD2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> ATAD2_2_Inhibitor: ATAD2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> ATAD2_3_Inhibitor: ATAD2 = !AURKA (Confidence: 1, TimeStep: 1)
#> ATAD2_4_Inhibitor: ATAD2 = BTG1 (Confidence: 1, TimeStep: 1)
#> ATAD2_5_Inhibitor: ATAD2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for AURKA with decay value = 1:
#> AURKA_1_Activator: AURKA = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> AURKA_2_Activator: AURKA = ASF1B (Confidence: 1, TimeStep: 1)
#> AURKA_3_Activator: AURKA = AURKA (Confidence: 1, TimeStep: 1)
#> AURKA_4_Activator: AURKA = !BTG1 (Confidence: 1, TimeStep: 1)
#> AURKA_5_Activator: AURKA = CCDC34 (Confidence: 1, TimeStep: 1)
#> AURKA_1_Inhibitor: AURKA = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> AURKA_2_Inhibitor: AURKA = !ASF1B (Confidence: 1, TimeStep: 1)
#> AURKA_3_Inhibitor: AURKA = !AURKA (Confidence: 1, TimeStep: 1)
#> AURKA_4_Inhibitor: AURKA = BTG1 (Confidence: 1, TimeStep: 1)
#> AURKA_5_Inhibitor: AURKA = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for AURKB with decay value = 1:
#> AURKB_1_Activator: AURKB = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> AURKB_2_Activator: AURKB = ASF1B (Confidence: 1, TimeStep: 1)
#> AURKB_3_Activator: AURKB = AURKA (Confidence: 1, TimeStep: 1)
#> AURKB_4_Activator: AURKB = !BTG1 (Confidence: 1, TimeStep: 1)
#> AURKB_5_Activator: AURKB = CCDC34 (Confidence: 1, TimeStep: 1)
#> AURKB_1_Inhibitor: AURKB = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> AURKB_2_Inhibitor: AURKB = !ASF1B (Confidence: 1, TimeStep: 1)
#> AURKB_3_Inhibitor: AURKB = !AURKA (Confidence: 1, TimeStep: 1)
#> AURKB_4_Inhibitor: AURKB = BTG1 (Confidence: 1, TimeStep: 1)
#> AURKB_5_Inhibitor: AURKB = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for B3GNT2 with decay value = 1:
#> B3GNT2_1_Activator: B3GNT2 = EMP1 (Confidence: 1, TimeStep: 1)
#> B3GNT2_2_Activator: B3GNT2 = B3GNT2&!HBG1 (Confidence: 1, TimeStep: 1)
#> B3GNT2_3_Activator: B3GNT2 = CDK6&DENND3 (Confidence: 1, TimeStep: 1)
#> B3GNT2_4_Activator: B3GNT2 = DENND3&LEF1 (Confidence: 1, TimeStep: 1)
#> B3GNT2_5_Activator: B3GNT2 = B3GNT2&DENND3 (Confidence: 1, TimeStep: 1)
#> B3GNT2_1_Inhibitor: B3GNT2 = !ABHD17B (Confidence: 1, TimeStep: 1)
#> B3GNT2_2_Inhibitor: B3GNT2 = SEMA4D (Confidence: 1, TimeStep: 1)
#> B3GNT2_3_Inhibitor: B3GNT2 = !WASF1 (Confidence: 1, TimeStep: 1)
#> B3GNT2_4_Inhibitor: B3GNT2 = !B3GNT2&!HRK (Confidence: 1, TimeStep: 1)
#> B3GNT2_5_Inhibitor: B3GNT2 = !EMP1&!MSH6 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BCAT1 with decay value = 1:
#> BCAT1_1_Activator: BCAT1 = !TXNIP (Confidence: 1, TimeStep: 1)
#> BCAT1_2_Activator: BCAT1 = CKAP2 (Confidence: 1, TimeStep: 1)
#> BCAT1_3_Activator: BCAT1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BCAT1_4_Activator: BCAT1 = ASF1B (Confidence: 1, TimeStep: 1)
#> BCAT1_5_Activator: BCAT1 = AURKA (Confidence: 1, TimeStep: 1)
#> BCAT1_1_Inhibitor: BCAT1 = !BCAT1 (Confidence: 1, TimeStep: 1)
#> BCAT1_2_Inhibitor: BCAT1 = !LOC100996643 (Confidence: 1, TimeStep: 1)
#> BCAT1_3_Inhibitor: BCAT1 = !PAICS (Confidence: 1, TimeStep: 1)
#> BCAT1_4_Inhibitor: BCAT1 = CCR1 (Confidence: 1, TimeStep: 1)
#> BCAT1_5_Inhibitor: BCAT1 = !FABP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BCL10 with decay value = 1:
#> BCL10_1_Inhibitor: BCL10 = GIMAP4 (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for BCL2L11 with decay value = 1:
#> BCL2L11_1_Activator: BCL2L11 = !CDK6&!IL1B (Confidence: 1, TimeStep: 1)
#> BCL2L11_2_Activator: BCL2L11 = !CDK6&!DENND3 (Confidence: 1, TimeStep: 1)
#> BCL2L11_3_Activator: BCL2L11 = !ATAD2&BCL2L11 (Confidence: 1, TimeStep: 1)
#> BCL2L11_4_Activator: BCL2L11 = !AURKB&BCL2L11 (Confidence: 1, TimeStep: 1)
#> BCL2L11_5_Activator: BCL2L11 = BIRC3&CENPU (Confidence: 1, TimeStep: 1)
#> BCL2L11_1_Inhibitor: BCL2L11 = !DEPDC1B&!SLA (Confidence: 1, TimeStep: 1)
#> BCL2L11_2_Inhibitor: BCL2L11 = !BIRC3&DENND3 (Confidence: 1, TimeStep: 1)
#> BCL2L11_3_Inhibitor: BCL2L11 = !BIRC3&IL1B (Confidence: 1, TimeStep: 1)
#> BCL2L11_4_Inhibitor: BCL2L11 = !CENPF&!SLA (Confidence: 1, TimeStep: 1)
#> BCL2L11_5_Inhibitor: BCL2L11 = !KNL1&!SLA (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BIRC3 with decay value = 1:
#> BIRC3_1_Activator: BIRC3 = !EMP1&!SELENOI (Confidence: 1, TimeStep: 1)
#> BIRC3_2_Activator: BIRC3 = ARRDC3&SERPINA1 (Confidence: 1, TimeStep: 1)
#> BIRC3_3_Activator: BIRC3 = FGR&IGH (Confidence: 1, TimeStep: 1)
#> BIRC3_4_Activator: BIRC3 = HBB&!SELENOI (Confidence: 1, TimeStep: 1)
#> BIRC3_5_Activator: BIRC3 = !BIRC3&!TYMS (Confidence: 1, TimeStep: 1)
#> BIRC3_1_Inhibitor: BIRC3 = LOC728175 (Confidence: 1, TimeStep: 1)
#> BIRC3_2_Inhibitor: BIRC3 = !HBG1&MYRIP (Confidence: 1, TimeStep: 1)
#> BIRC3_3_Inhibitor: BIRC3 = LOC100996643&MYRIP (Confidence: 1, TimeStep: 1)
#> BIRC3_4_Inhibitor: BIRC3 = EMP1&MYRIP (Confidence: 1, TimeStep: 1)
#> BIRC3_5_Inhibitor: BIRC3 = !HBB&MYRIP (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BIRC5 with decay value = 1:
#> BIRC5_1_Activator: BIRC5 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BIRC5_2_Activator: BIRC5 = ASF1B (Confidence: 1, TimeStep: 1)
#> BIRC5_3_Activator: BIRC5 = AURKA (Confidence: 1, TimeStep: 1)
#> BIRC5_4_Activator: BIRC5 = !BTG1 (Confidence: 1, TimeStep: 1)
#> BIRC5_5_Activator: BIRC5 = CCDC34 (Confidence: 1, TimeStep: 1)
#> BIRC5_1_Inhibitor: BIRC5 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BIRC5_2_Inhibitor: BIRC5 = !ASF1B (Confidence: 1, TimeStep: 1)
#> BIRC5_3_Inhibitor: BIRC5 = !AURKA (Confidence: 1, TimeStep: 1)
#> BIRC5_4_Inhibitor: BIRC5 = BTG1 (Confidence: 1, TimeStep: 1)
#> BIRC5_5_Inhibitor: BIRC5 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BMF with decay value = 1:
#> BMF_1_Activator: BMF = BMF (Confidence: 1, TimeStep: 1)
#> BMF_2_Activator: BMF = HRK (Confidence: 1, TimeStep: 1)
#> BMF_3_Activator: BMF = MIR4683 (Confidence: 1, TimeStep: 1)
#> BMF_4_Activator: BMF = RBMS3 (Confidence: 1, TimeStep: 1)
#> BMF_5_Activator: BMF = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> BMF_1_Inhibitor: BMF = FOXM1 (Confidence: 1, TimeStep: 1)
#> BMF_2_Inhibitor: BMF = STIL (Confidence: 1, TimeStep: 1)
#> BMF_3_Inhibitor: BMF = ATAD2 (Confidence: 1, TimeStep: 1)
#> BMF_4_Inhibitor: BMF = BIRC5 (Confidence: 1, TimeStep: 1)
#> BMF_5_Inhibitor: BMF = BUB1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BRCA1 with decay value = 1:
#> BRCA1_1_Activator: BRCA1 = !APITD1-CORT&BRIP1 (Confidence: 1, TimeStep: 1)
#> BRCA1_2_Activator: BRCA1 = !APITD1-CORT&CHEK1 (Confidence: 1, TimeStep: 1)
#> BRCA1_3_Activator: BRCA1 = !APITD1-CORT&FANCI (Confidence: 1, TimeStep: 1)
#> BRCA1_4_Activator: BRCA1 = !APITD1-CORT&TTK (Confidence: 1, TimeStep: 1)
#> BRCA1_5_Activator: BRCA1 = !ASF1B&BRIP1 (Confidence: 1, TimeStep: 1)
#> BRCA1_1_Inhibitor: BRCA1 = !BRCA1 (Confidence: 1, TimeStep: 1)
#> BRCA1_2_Inhibitor: BRCA1 = !BYSL (Confidence: 1, TimeStep: 1)
#> BRCA1_3_Inhibitor: BRCA1 = !FABP5 (Confidence: 1, TimeStep: 1)
#> BRCA1_4_Inhibitor: BRCA1 = GVINP1 (Confidence: 1, TimeStep: 1)
#> BRCA1_5_Inhibitor: BRCA1 = PRDM1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BRIP1 with decay value = 1:
#> BRIP1_1_Activator: BRIP1 = CCNB2&!P2RX5 (Confidence: 1, TimeStep: 1)
#> BRIP1_2_Activator: BRIP1 = CDC45&!P2RX5 (Confidence: 1, TimeStep: 1)
#> BRIP1_3_Activator: BRIP1 = CENPA&!P2RX5 (Confidence: 1, TimeStep: 1)
#> BRIP1_4_Activator: BRIP1 = DLGAP5&!P2RX5 (Confidence: 1, TimeStep: 1)
#> BRIP1_5_Activator: BRIP1 = MAD2L1&!P2RX5 (Confidence: 1, TimeStep: 1)
#> BRIP1_1_Inhibitor: BRIP1 = !KIF2C (Confidence: 1, TimeStep: 1)
#> BRIP1_2_Inhibitor: BRIP1 = !CCNB2 (Confidence: 1, TimeStep: 1)
#> BRIP1_3_Inhibitor: BRIP1 = !CDC45 (Confidence: 1, TimeStep: 1)
#> BRIP1_4_Inhibitor: BRIP1 = !CENPA (Confidence: 1, TimeStep: 1)
#> BRIP1_5_Inhibitor: BRIP1 = !DLGAP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BTG1 with decay value = 1:
#> BTG1_1_Activator: BTG1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BTG1_2_Activator: BTG1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> BTG1_3_Activator: BTG1 = !AURKA (Confidence: 1, TimeStep: 1)
#> BTG1_4_Activator: BTG1 = BTG1 (Confidence: 1, TimeStep: 1)
#> BTG1_5_Activator: BTG1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> BTG1_1_Inhibitor: BTG1 = UBE2C (Confidence: 1, TimeStep: 1)
#> BTG1_2_Inhibitor: BTG1 = ANLN&!B3GNT2 (Confidence: 1, TimeStep: 1)
#> BTG1_3_Inhibitor: BTG1 = ANP32E&!B3GNT2 (Confidence: 1, TimeStep: 1)
#> BTG1_4_Inhibitor: BTG1 = ASPM&!B3GNT2 (Confidence: 1, TimeStep: 1)
#> BTG1_5_Inhibitor: BTG1 = !B3GNT2&BIRC5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BTNL9 with decay value = 1:
#> BTNL9_1_Activator: BTNL9 = !CEP55&LOC285097 (Confidence: 1, TimeStep: 1)
#> BTNL9_2_Activator: BTNL9 = !BCL2L11&BTNL9 (Confidence: 1, TimeStep: 1)
#> BTNL9_3_Activator: BTNL9 = BMF&BTNL9 (Confidence: 1, TimeStep: 1)
#> BTNL9_4_Activator: BTNL9 = !CEP55&RPS6KA2 (Confidence: 1, TimeStep: 1)
#> BTNL9_5_Activator: BTNL9 = !DEPDC1B&RPS6KA2 (Confidence: 1, TimeStep: 1)
#> BTNL9_1_Inhibitor: BTNL9 = BCL2L11&!KIF26A (Confidence: 1, TimeStep: 1)
#> BTNL9_2_Inhibitor: BTNL9 = BCL2L11&!SIK1 (Confidence: 1, TimeStep: 1)
#> BTNL9_3_Inhibitor: BTNL9 = !IL1B&S100A11 (Confidence: 1, TimeStep: 1)
#> BTNL9_4_Inhibitor: BTNL9 = !KIF26A&!RNASET2 (Confidence: 1, TimeStep: 1)
#> BTNL9_5_Inhibitor: BTNL9 = !RBMS3&S100A11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BUB1 with decay value = 1:
#> BUB1_1_Activator: BUB1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BUB1_2_Activator: BUB1 = ASF1B (Confidence: 1, TimeStep: 1)
#> BUB1_3_Activator: BUB1 = AURKA (Confidence: 1, TimeStep: 1)
#> BUB1_4_Activator: BUB1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> BUB1_5_Activator: BUB1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> BUB1_1_Inhibitor: BUB1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BUB1_2_Inhibitor: BUB1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> BUB1_3_Inhibitor: BUB1 = !AURKA (Confidence: 1, TimeStep: 1)
#> BUB1_4_Inhibitor: BUB1 = BTG1 (Confidence: 1, TimeStep: 1)
#> BUB1_5_Inhibitor: BUB1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BUB1B with decay value = 1:
#> BUB1B_1_Activator: BUB1B = CENPH (Confidence: 1, TimeStep: 1)
#> BUB1B_2_Activator: BUB1B = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> BUB1B_3_Activator: BUB1B = ASF1B (Confidence: 1, TimeStep: 1)
#> BUB1B_4_Activator: BUB1B = AURKA (Confidence: 1, TimeStep: 1)
#> BUB1B_5_Activator: BUB1B = !BTG1 (Confidence: 1, TimeStep: 1)
#> BUB1B_1_Inhibitor: BUB1B = !CENPH (Confidence: 1, TimeStep: 1)
#> BUB1B_2_Inhibitor: BUB1B = !CDK1 (Confidence: 1, TimeStep: 1)
#> BUB1B_3_Inhibitor: BUB1B = !HMMR (Confidence: 1, TimeStep: 1)
#> BUB1B_4_Inhibitor: BUB1B = !KIF14 (Confidence: 1, TimeStep: 1)
#> BUB1B_5_Inhibitor: BUB1B = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for BYSL with decay value = 1:
#> BYSL_1_Activator: BYSL = ANLN&!PFKFB2 (Confidence: 1, TimeStep: 1)
#> BYSL_2_Activator: BYSL = BRIP1&HIST4H4 (Confidence: 1, TimeStep: 1)
#> BYSL_3_Activator: BYSL = BUB1B&HIST4H4 (Confidence: 1, TimeStep: 1)
#> BYSL_4_Activator: BYSL = C4orf46&HIST4H4 (Confidence: 1, TimeStep: 1)
#> BYSL_5_Activator: BYSL = CDC20&HIST4H4 (Confidence: 1, TimeStep: 1)
#> BYSL_1_Inhibitor: BYSL = !BYSL (Confidence: 1, TimeStep: 1)
#> BYSL_2_Inhibitor: BYSL = !PAICS (Confidence: 1, TimeStep: 1)
#> BYSL_3_Inhibitor: BYSL = !SELENOI (Confidence: 1, TimeStep: 1)
#> BYSL_4_Inhibitor: BYSL = !FABP5 (Confidence: 1, TimeStep: 1)
#> BYSL_5_Inhibitor: BYSL = GVINP1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for C4orf46 with decay value = 1:
#> C4orf46_1_Activator: C4orf46 = TMEM97 (Confidence: 1, TimeStep: 1)
#> C4orf46_2_Activator: C4orf46 = WDHD1 (Confidence: 1, TimeStep: 1)
#> C4orf46_3_Activator: C4orf46 = CENPH (Confidence: 1, TimeStep: 1)
#> C4orf46_4_Activator: C4orf46 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> C4orf46_5_Activator: C4orf46 = ASF1B (Confidence: 1, TimeStep: 1)
#> C4orf46_1_Inhibitor: C4orf46 = !TMEM97 (Confidence: 1, TimeStep: 1)
#> C4orf46_2_Inhibitor: C4orf46 = !WDHD1 (Confidence: 1, TimeStep: 1)
#> C4orf46_3_Inhibitor: C4orf46 = !CCNB1 (Confidence: 1, TimeStep: 1)
#> C4orf46_4_Inhibitor: C4orf46 = !IQGAP3 (Confidence: 1, TimeStep: 1)
#> C4orf46_5_Inhibitor: C4orf46 = !BUB1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for C5orf24 with decay value = 1:
#> C5orf24_1_Activator: C5orf24 = KIF4A (Confidence: 1, TimeStep: 1)
#> C5orf24_2_Activator: C5orf24 = CCNB1 (Confidence: 1, TimeStep: 1)
#> C5orf24_3_Activator: C5orf24 = CENPF (Confidence: 1, TimeStep: 1)
#> C5orf24_4_Activator: C5orf24 = IQGAP3 (Confidence: 1, TimeStep: 1)
#> C5orf24_5_Activator: C5orf24 = NEK2 (Confidence: 1, TimeStep: 1)
#> C5orf24_1_Inhibitor: C5orf24 = LGALS3 (Confidence: 1, TimeStep: 1)
#> C5orf24_2_Inhibitor: C5orf24 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> C5orf24_3_Inhibitor: C5orf24 = !CKS1B&!PSPH (Confidence: 1, TimeStep: 1)
#> C5orf24_4_Inhibitor: C5orf24 = !BCAT1&HBB (Confidence: 1, TimeStep: 1)
#> C5orf24_5_Inhibitor: C5orf24 = !BCAT1&HBG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCDC34 with decay value = 1:
#> CCDC34_1_Activator: CCDC34 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCDC34_2_Activator: CCDC34 = ASF1B (Confidence: 1, TimeStep: 1)
#> CCDC34_3_Activator: CCDC34 = AURKA (Confidence: 1, TimeStep: 1)
#> CCDC34_4_Activator: CCDC34 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CCDC34_5_Activator: CCDC34 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CCDC34_1_Inhibitor: CCDC34 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCDC34_2_Inhibitor: CCDC34 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CCDC34_3_Inhibitor: CCDC34 = !AURKA (Confidence: 1, TimeStep: 1)
#> CCDC34_4_Inhibitor: CCDC34 = BTG1 (Confidence: 1, TimeStep: 1)
#> CCDC34_5_Inhibitor: CCDC34 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCDC86 with decay value = 1:
#> CCDC86_1_Activator: CCDC86 = KIF2C (Confidence: 1, TimeStep: 1)
#> CCDC86_2_Activator: CCDC86 = !TXNIP (Confidence: 1, TimeStep: 1)
#> CCDC86_3_Activator: CCDC86 = ATAD2 (Confidence: 1, TimeStep: 1)
#> CCDC86_4_Activator: CCDC86 = BIRC5 (Confidence: 1, TimeStep: 1)
#> CCDC86_5_Activator: CCDC86 = BUB1 (Confidence: 1, TimeStep: 1)
#> CCDC86_1_Inhibitor: CCDC86 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> CCDC86_2_Inhibitor: CCDC86 = !BYSL (Confidence: 1, TimeStep: 1)
#> CCDC86_3_Inhibitor: CCDC86 = !PAICS (Confidence: 1, TimeStep: 1)
#> CCDC86_4_Inhibitor: CCDC86 = !SELENOI (Confidence: 1, TimeStep: 1)
#> CCDC86_5_Inhibitor: CCDC86 = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCNA2 with decay value = 1:
#> CCNA2_1_Activator: CCNA2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNA2_2_Activator: CCNA2 = ASF1B (Confidence: 1, TimeStep: 1)
#> CCNA2_3_Activator: CCNA2 = AURKA (Confidence: 1, TimeStep: 1)
#> CCNA2_4_Activator: CCNA2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CCNA2_5_Activator: CCNA2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CCNA2_1_Inhibitor: CCNA2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNA2_2_Inhibitor: CCNA2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CCNA2_3_Inhibitor: CCNA2 = !AURKA (Confidence: 1, TimeStep: 1)
#> CCNA2_4_Inhibitor: CCNA2 = BTG1 (Confidence: 1, TimeStep: 1)
#> CCNA2_5_Inhibitor: CCNA2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCNB1 with decay value = 1:
#> CCNB1_1_Activator: CCNB1 = CENPH (Confidence: 1, TimeStep: 1)
#> CCNB1_2_Activator: CCNB1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNB1_3_Activator: CCNB1 = ASF1B (Confidence: 1, TimeStep: 1)
#> CCNB1_4_Activator: CCNB1 = AURKA (Confidence: 1, TimeStep: 1)
#> CCNB1_5_Activator: CCNB1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CCNB1_1_Inhibitor: CCNB1 = !CENPH (Confidence: 1, TimeStep: 1)
#> CCNB1_2_Inhibitor: CCNB1 = !CDK1 (Confidence: 1, TimeStep: 1)
#> CCNB1_3_Inhibitor: CCNB1 = !HMMR (Confidence: 1, TimeStep: 1)
#> CCNB1_4_Inhibitor: CCNB1 = !KIF14 (Confidence: 1, TimeStep: 1)
#> CCNB1_5_Inhibitor: CCNB1 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCNB2 with decay value = 1:
#> CCNB2_1_Activator: CCNB2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNB2_2_Activator: CCNB2 = ASF1B (Confidence: 1, TimeStep: 1)
#> CCNB2_3_Activator: CCNB2 = AURKA (Confidence: 1, TimeStep: 1)
#> CCNB2_4_Activator: CCNB2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CCNB2_5_Activator: CCNB2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CCNB2_1_Inhibitor: CCNB2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNB2_2_Inhibitor: CCNB2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CCNB2_3_Inhibitor: CCNB2 = !AURKA (Confidence: 1, TimeStep: 1)
#> CCNB2_4_Inhibitor: CCNB2 = BTG1 (Confidence: 1, TimeStep: 1)
#> CCNB2_5_Inhibitor: CCNB2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCNE2 with decay value = 1:
#> CCNE2_1_Activator: CCNE2 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> CCNE2_2_Activator: CCNE2 = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> CCNE2_3_Activator: CCNE2 = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> CCNE2_4_Activator: CCNE2 = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> CCNE2_5_Activator: CCNE2 = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> CCNE2_1_Inhibitor: CCNE2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CCNE2_2_Inhibitor: CCNE2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CCNE2_3_Inhibitor: CCNE2 = !AURKA (Confidence: 1, TimeStep: 1)
#> CCNE2_4_Inhibitor: CCNE2 = BTG1 (Confidence: 1, TimeStep: 1)
#> CCNE2_5_Inhibitor: CCNE2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCNL1 with decay value = 1:
#> CCNL1_1_Activator: CCNL1 = !BYSL&ELL2 (Confidence: 1, TimeStep: 1)
#> CCNL1_2_Activator: CCNL1 = !BYSL&CENPV (Confidence: 1, TimeStep: 1)
#> CCNL1_3_Activator: CCNL1 = !BYSL&!IRAK3 (Confidence: 1, TimeStep: 1)
#> CCNL1_4_Activator: CCNL1 = GINS2&!PCNA (Confidence: 1, TimeStep: 1)
#> CCNL1_5_Activator: CCNL1 = !ITGAM&!PCNA&SOCS1 (Confidence: 1, TimeStep: 1)
#> CCNL1_1_Inhibitor: CCNL1 = BRCA1 (Confidence: 1, TimeStep: 1)
#> CCNL1_2_Inhibitor: CCNL1 = PCNA (Confidence: 1, TimeStep: 1)
#> CCNL1_3_Inhibitor: CCNL1 = ITGAM (Confidence: 1, TimeStep: 1)
#> CCNL1_4_Inhibitor: CCNL1 = LOC285097 (Confidence: 1, TimeStep: 1)
#> CCNL1_5_Inhibitor: CCNL1 = TK1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CCR1 with decay value = 1:
#> CCR1_1_Activator: CCR1 = RAB31 (Confidence: 1, TimeStep: 1)
#> CCR1_2_Activator: CCR1 = !ASPM&CCR1 (Confidence: 1, TimeStep: 1)
#> CCR1_3_Activator: CCR1 = !ANP32E&MNDA (Confidence: 1, TimeStep: 1)
#> CCR1_4_Activator: CCR1 = !ASPM&MNDA (Confidence: 1, TimeStep: 1)
#> CCR1_5_Activator: CCR1 = !BYSL&PPBP (Confidence: 1, TimeStep: 1)
#> CCR1_1_Inhibitor: CCR1 = !MTSS1 (Confidence: 1, TimeStep: 1)
#> CCR1_2_Inhibitor: CCR1 = !SERPINB9 (Confidence: 1, TimeStep: 1)
#> CCR1_3_Inhibitor: CCR1 = !IRAK3 (Confidence: 1, TimeStep: 1)
#> CCR1_4_Inhibitor: CCR1 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> CCR1_5_Inhibitor: CCR1 = E2F7 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CD53 with decay value = 1:
#> CD53_1_Activator: CD53 = SMAP2 (Confidence: 1, TimeStep: 1)
#> CD53_2_Activator: CD53 = CD53 (Confidence: 1, TimeStep: 1)
#> CD53_3_Activator: CD53 = ISG20 (Confidence: 1, TimeStep: 1)
#> CD53_4_Activator: CD53 = LILRB2 (Confidence: 1, TimeStep: 1)
#> CD53_5_Activator: CD53 = RNASET2 (Confidence: 1, TimeStep: 1)
#> CD53_1_Inhibitor: CD53 = UBE2C (Confidence: 1, TimeStep: 1)
#> CD53_2_Inhibitor: CD53 = ANLN&!GSN (Confidence: 1, TimeStep: 1)
#> CD53_3_Inhibitor: CD53 = ANLN&!KIF26A (Confidence: 1, TimeStep: 1)
#> CD53_4_Inhibitor: CD53 = ANLN&!IL6ST (Confidence: 1, TimeStep: 1)
#> CD53_5_Inhibitor: CD53 = ANP32E&!SIK1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDC20 with decay value = 1:
#> CDC20_1_Activator: CDC20 = CENPH (Confidence: 1, TimeStep: 1)
#> CDC20_2_Activator: CDC20 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDC20_3_Activator: CDC20 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDC20_4_Activator: CDC20 = AURKA (Confidence: 1, TimeStep: 1)
#> CDC20_5_Activator: CDC20 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDC20_1_Inhibitor: CDC20 = !CENPH (Confidence: 1, TimeStep: 1)
#> CDC20_2_Inhibitor: CDC20 = !CDK1 (Confidence: 1, TimeStep: 1)
#> CDC20_3_Inhibitor: CDC20 = !HMMR (Confidence: 1, TimeStep: 1)
#> CDC20_4_Inhibitor: CDC20 = !KIF14 (Confidence: 1, TimeStep: 1)
#> CDC20_5_Inhibitor: CDC20 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDC42EP3 with decay value = 1:
#> CDC42EP3_1_Activator: CDC42EP3 = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_2_Activator: CDC42EP3 = PPBP (Confidence: 1, TimeStep: 1)
#> CDC42EP3_3_Activator: CDC42EP3 = FGL2 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_4_Activator: CDC42EP3 = LGALS3 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_5_Activator: CDC42EP3 = RAB31 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_1_Inhibitor: CDC42EP3 = CKS1B (Confidence: 1, TimeStep: 1)
#> CDC42EP3_2_Inhibitor: CDC42EP3 = !GBP4 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_3_Inhibitor: CDC42EP3 = KNL1 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_4_Inhibitor: CDC42EP3 = CDT1 (Confidence: 1, TimeStep: 1)
#> CDC42EP3_5_Inhibitor: CDC42EP3 = !NEAT1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDC45 with decay value = 1:
#> CDC45_1_Activator: CDC45 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> CDC45_2_Activator: CDC45 = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> CDC45_3_Activator: CDC45 = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> CDC45_4_Activator: CDC45 = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> CDC45_5_Activator: CDC45 = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> CDC45_1_Inhibitor: CDC45 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDC45_2_Inhibitor: CDC45 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDC45_3_Inhibitor: CDC45 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDC45_4_Inhibitor: CDC45 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDC45_5_Inhibitor: CDC45 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDC6 with decay value = 1:
#> CDC6_1_Activator: CDC6 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> CDC6_2_Activator: CDC6 = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> CDC6_3_Activator: CDC6 = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> CDC6_4_Activator: CDC6 = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> CDC6_5_Activator: CDC6 = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> CDC6_1_Inhibitor: CDC6 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDC6_2_Inhibitor: CDC6 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDC6_3_Inhibitor: CDC6 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDC6_4_Inhibitor: CDC6 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDC6_5_Inhibitor: CDC6 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDCA2 with decay value = 1:
#> CDCA2_1_Activator: CDCA2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA2_2_Activator: CDCA2 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA2_3_Activator: CDCA2 = AURKA (Confidence: 1, TimeStep: 1)
#> CDCA2_4_Activator: CDCA2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA2_5_Activator: CDCA2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CDCA2_1_Inhibitor: CDCA2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA2_2_Inhibitor: CDCA2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA2_3_Inhibitor: CDCA2 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDCA2_4_Inhibitor: CDCA2 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA2_5_Inhibitor: CDCA2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDCA3 with decay value = 1:
#> CDCA3_1_Activator: CDCA3 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA3_2_Activator: CDCA3 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA3_3_Activator: CDCA3 = AURKA (Confidence: 1, TimeStep: 1)
#> CDCA3_4_Activator: CDCA3 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA3_5_Activator: CDCA3 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CDCA3_1_Inhibitor: CDCA3 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA3_2_Inhibitor: CDCA3 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA3_3_Inhibitor: CDCA3 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDCA3_4_Inhibitor: CDCA3 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA3_5_Inhibitor: CDCA3 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDCA5 with decay value = 1:
#> CDCA5_1_Activator: CDCA5 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA5_2_Activator: CDCA5 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA5_3_Activator: CDCA5 = AURKA (Confidence: 1, TimeStep: 1)
#> CDCA5_4_Activator: CDCA5 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA5_5_Activator: CDCA5 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CDCA5_1_Inhibitor: CDCA5 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDCA5_2_Inhibitor: CDCA5 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDCA5_3_Inhibitor: CDCA5 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDCA5_4_Inhibitor: CDCA5 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDCA5_5_Inhibitor: CDCA5 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDK1 with decay value = 1:
#> CDK1_1_Activator: CDK1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDK1_2_Activator: CDK1 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDK1_3_Activator: CDK1 = AURKA (Confidence: 1, TimeStep: 1)
#> CDK1_4_Activator: CDK1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDK1_5_Activator: CDK1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CDK1_1_Inhibitor: CDK1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDK1_2_Inhibitor: CDK1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDK1_3_Inhibitor: CDK1 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDK1_4_Inhibitor: CDK1 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDK1_5_Inhibitor: CDK1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDK6 with decay value = 1:
#> CDK6_1_Activator: CDK6 = LEF1&!SNTB2 (Confidence: 1, TimeStep: 1)
#> CDK6_2_Activator: CDK6 = GIMAP4&!KLF9 (Confidence: 1, TimeStep: 1)
#> CDK6_3_Activator: CDK6 = !KLF9&!RHOBTB3 (Confidence: 1, TimeStep: 1)
#> CDK6_4_Activator: CDK6 = B3GNT2&!KLF9 (Confidence: 1, TimeStep: 1)
#> CDK6_5_Activator: CDK6 = !EMP1&!KLF9&!TRIB1 (Confidence: 1, TimeStep: 1)
#> CDK6_1_Inhibitor: CDK6 = !LEF1 (Confidence: 1, TimeStep: 1)
#> CDK6_2_Inhibitor: CDK6 = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> CDK6_3_Inhibitor: CDK6 = BCL2L11&KLF9 (Confidence: 1, TimeStep: 1)
#> CDK6_4_Inhibitor: CDK6 = BCL2L11&!RAG1 (Confidence: 1, TimeStep: 1)
#> CDK6_5_Inhibitor: CDK6 = !BCL2L11&!CDK6 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDKN3 with decay value = 1:
#> CDKN3_1_Activator: CDKN3 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDKN3_2_Activator: CDKN3 = ASF1B (Confidence: 1, TimeStep: 1)
#> CDKN3_3_Activator: CDKN3 = AURKA (Confidence: 1, TimeStep: 1)
#> CDKN3_4_Activator: CDKN3 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CDKN3_5_Activator: CDKN3 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CDKN3_1_Inhibitor: CDKN3 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CDKN3_2_Inhibitor: CDKN3 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CDKN3_3_Inhibitor: CDKN3 = !AURKA (Confidence: 1, TimeStep: 1)
#> CDKN3_4_Inhibitor: CDKN3 = BTG1 (Confidence: 1, TimeStep: 1)
#> CDKN3_5_Inhibitor: CDKN3 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CDT1 with decay value = 1:
#> CDT1_1_Activator: CDT1 = MDK&MKI67 (Confidence: 1, TimeStep: 1)
#> CDT1_2_Activator: CDT1 = MDK&NCAPG (Confidence: 1, TimeStep: 1)
#> CDT1_3_Activator: CDT1 = MDK&NEK2 (Confidence: 1, TimeStep: 1)
#> CDT1_4_Activator: CDT1 = MDK&NUSAP1 (Confidence: 1, TimeStep: 1)
#> CDT1_5_Activator: CDT1 = MDK&POLQ (Confidence: 1, TimeStep: 1)
#> CDT1_1_Inhibitor: CDT1 = !CCNB2 (Confidence: 1, TimeStep: 1)
#> CDT1_2_Inhibitor: CDT1 = !CDC45 (Confidence: 1, TimeStep: 1)
#> CDT1_3_Inhibitor: CDT1 = !CENPA (Confidence: 1, TimeStep: 1)
#> CDT1_4_Inhibitor: CDT1 = !DLGAP5 (Confidence: 1, TimeStep: 1)
#> CDT1_5_Inhibitor: CDT1 = !MAD2L1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CELF2 with decay value = 1:
#> CELF2_1_Activator: CELF2 = !CRNDE (Confidence: 1, TimeStep: 1)
#> CELF2_2_Activator: CELF2 = !SELENOI (Confidence: 1, TimeStep: 1)
#> CELF2_3_Activator: CELF2 = !DHX9 (Confidence: 1, TimeStep: 1)
#> CELF2_4_Activator: CELF2 = PPP1R16B (Confidence: 1, TimeStep: 1)
#> CELF2_5_Activator: CELF2 = !FABP5 (Confidence: 1, TimeStep: 1)
#> CELF2_1_Inhibitor: CELF2 = !CELF2&!DDIT4 (Confidence: 1, TimeStep: 1)
#> CELF2_2_Inhibitor: CELF2 = !DDIT4&IQGAP3 (Confidence: 1, TimeStep: 1)
#> CELF2_3_Inhibitor: CELF2 = !DDIT4&SHCBP1 (Confidence: 1, TimeStep: 1)
#> CELF2_4_Inhibitor: CELF2 = CDK1&!DDIT4 (Confidence: 1, TimeStep: 1)
#> CELF2_5_Inhibitor: CELF2 = CKAP2L&!DDIT4 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPA with decay value = 1:
#> CENPA_1_Activator: CENPA = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPA_2_Activator: CENPA = ASF1B (Confidence: 1, TimeStep: 1)
#> CENPA_3_Activator: CENPA = AURKA (Confidence: 1, TimeStep: 1)
#> CENPA_4_Activator: CENPA = !BTG1 (Confidence: 1, TimeStep: 1)
#> CENPA_5_Activator: CENPA = CCDC34 (Confidence: 1, TimeStep: 1)
#> CENPA_1_Inhibitor: CENPA = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPA_2_Inhibitor: CENPA = !ASF1B (Confidence: 1, TimeStep: 1)
#> CENPA_3_Inhibitor: CENPA = !AURKA (Confidence: 1, TimeStep: 1)
#> CENPA_4_Inhibitor: CENPA = BTG1 (Confidence: 1, TimeStep: 1)
#> CENPA_5_Inhibitor: CENPA = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPE with decay value = 1:
#> CENPE_1_Activator: CENPE = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPE_2_Activator: CENPE = ASF1B (Confidence: 1, TimeStep: 1)
#> CENPE_3_Activator: CENPE = AURKA (Confidence: 1, TimeStep: 1)
#> CENPE_4_Activator: CENPE = !BTG1 (Confidence: 1, TimeStep: 1)
#> CENPE_5_Activator: CENPE = CCDC34 (Confidence: 1, TimeStep: 1)
#> CENPE_1_Inhibitor: CENPE = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPE_2_Inhibitor: CENPE = !ASF1B (Confidence: 1, TimeStep: 1)
#> CENPE_3_Inhibitor: CENPE = !AURKA (Confidence: 1, TimeStep: 1)
#> CENPE_4_Inhibitor: CENPE = BTG1 (Confidence: 1, TimeStep: 1)
#> CENPE_5_Inhibitor: CENPE = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPF with decay value = 1:
#> CENPF_1_Activator: CENPF = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPF_2_Activator: CENPF = ASF1B (Confidence: 1, TimeStep: 1)
#> CENPF_3_Activator: CENPF = AURKA (Confidence: 1, TimeStep: 1)
#> CENPF_4_Activator: CENPF = !BTG1 (Confidence: 1, TimeStep: 1)
#> CENPF_5_Activator: CENPF = CCDC34 (Confidence: 1, TimeStep: 1)
#> CENPF_1_Inhibitor: CENPF = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPF_2_Inhibitor: CENPF = !ASF1B (Confidence: 1, TimeStep: 1)
#> CENPF_3_Inhibitor: CENPF = !AURKA (Confidence: 1, TimeStep: 1)
#> CENPF_4_Inhibitor: CENPF = BTG1 (Confidence: 1, TimeStep: 1)
#> CENPF_5_Inhibitor: CENPF = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPH with decay value = 1:
#> CENPH_1_Activator: CENPH = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> CENPH_2_Activator: CENPH = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> CENPH_3_Activator: CENPH = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> CENPH_4_Activator: CENPH = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> CENPH_5_Activator: CENPH = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> CENPH_1_Inhibitor: CENPH = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPH_2_Inhibitor: CENPH = !ASF1B (Confidence: 1, TimeStep: 1)
#> CENPH_3_Inhibitor: CENPH = !AURKA (Confidence: 1, TimeStep: 1)
#> CENPH_4_Inhibitor: CENPH = BTG1 (Confidence: 1, TimeStep: 1)
#> CENPH_5_Inhibitor: CENPH = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPK with decay value = 1:
#> CENPK_1_Activator: CENPK = !CDC42EP3&LOC100505650 (Confidence: 1, TimeStep: 1)
#> CENPK_2_Activator: CENPK = !CPM&LOC100505650 (Confidence: 1, TimeStep: 1)
#> CENPK_3_Activator: CENPK = CRNDE&LOC100505650 (Confidence: 1, TimeStep: 1)
#> CENPK_4_Activator: CENPK = !APITD1-CORT&ECT2 (Confidence: 1, TimeStep: 1)
#> CENPK_5_Activator: CENPK = !APITD1-CORT&!METTL7A (Confidence: 1, TimeStep: 1)
#> CENPK_1_Inhibitor: CENPK = !ECT2 (Confidence: 1, TimeStep: 1)
#> CENPK_2_Inhibitor: CENPK = !CENPK (Confidence: 1, TimeStep: 1)
#> CENPK_3_Inhibitor: CENPK = ISG20 (Confidence: 1, TimeStep: 1)
#> CENPK_4_Inhibitor: CENPK = GBP4 (Confidence: 1, TimeStep: 1)
#> CENPK_5_Inhibitor: CENPK = LILRB2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPN with decay value = 1:
#> CENPN_1_Activator: CENPN = CENPH (Confidence: 1, TimeStep: 1)
#> CENPN_2_Activator: CENPN = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CENPN_3_Activator: CENPN = ASF1B (Confidence: 1, TimeStep: 1)
#> CENPN_4_Activator: CENPN = AURKA (Confidence: 1, TimeStep: 1)
#> CENPN_5_Activator: CENPN = !BTG1 (Confidence: 1, TimeStep: 1)
#> CENPN_1_Inhibitor: CENPN = !CENPH (Confidence: 1, TimeStep: 1)
#> CENPN_2_Inhibitor: CENPN = !CDK1 (Confidence: 1, TimeStep: 1)
#> CENPN_3_Inhibitor: CENPN = !HMMR (Confidence: 1, TimeStep: 1)
#> CENPN_4_Inhibitor: CENPN = !KIF14 (Confidence: 1, TimeStep: 1)
#> CENPN_5_Inhibitor: CENPN = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPU with decay value = 1:
#> CENPU_1_Activator: CENPU = FOXM1 (Confidence: 1, TimeStep: 1)
#> CENPU_2_Activator: CENPU = KIF18B (Confidence: 1, TimeStep: 1)
#> CENPU_3_Activator: CENPU = STIL (Confidence: 1, TimeStep: 1)
#> CENPU_4_Activator: CENPU = UBE2T (Confidence: 1, TimeStep: 1)
#> CENPU_5_Activator: CENPU = ATAD2 (Confidence: 1, TimeStep: 1)
#> CENPU_1_Inhibitor: CENPU = CLEC2B (Confidence: 1, TimeStep: 1)
#> CENPU_2_Inhibitor: CENPU = TARSL2 (Confidence: 1, TimeStep: 1)
#> CENPU_3_Inhibitor: CENPU = !BYSL (Confidence: 1, TimeStep: 1)
#> CENPU_4_Inhibitor: CENPU = P2RY14 (Confidence: 1, TimeStep: 1)
#> CENPU_5_Inhibitor: CENPU = !PAICS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPV with decay value = 1:
#> CENPV_1_Activator: CENPV = ECT2 (Confidence: 1, TimeStep: 1)
#> CENPV_2_Activator: CENPV = FOXM1 (Confidence: 1, TimeStep: 1)
#> CENPV_3_Activator: CENPV = STIL (Confidence: 1, TimeStep: 1)
#> CENPV_4_Activator: CENPV = ATAD2 (Confidence: 1, TimeStep: 1)
#> CENPV_5_Activator: CENPV = BIRC5 (Confidence: 1, TimeStep: 1)
#> CENPV_1_Inhibitor: CENPV = !CENPV (Confidence: 1, TimeStep: 1)
#> CENPV_2_Inhibitor: CENPV = ITGAM (Confidence: 1, TimeStep: 1)
#> CENPV_3_Inhibitor: CENPV = MIR4683 (Confidence: 1, TimeStep: 1)
#> CENPV_4_Inhibitor: CENPV = RBMS3 (Confidence: 1, TimeStep: 1)
#> CENPV_5_Inhibitor: CENPV = IL18R1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CENPW with decay value = 1:
#> CENPW_1_Activator: CENPW = CDK1 (Confidence: 1, TimeStep: 1)
#> CENPW_2_Activator: CENPW = CKAP2L (Confidence: 1, TimeStep: 1)
#> CENPW_3_Activator: CENPW = HMMR (Confidence: 1, TimeStep: 1)
#> CENPW_4_Activator: CENPW = KIF14 (Confidence: 1, TimeStep: 1)
#> CENPW_5_Activator: CENPW = KIF20A (Confidence: 1, TimeStep: 1)
#> CENPW_1_Inhibitor: CENPW = !ANLN (Confidence: 1, TimeStep: 1)
#> CENPW_2_Inhibitor: CENPW = !PRR11 (Confidence: 1, TimeStep: 1)
#> CENPW_3_Inhibitor: CENPW = !CDC20 (Confidence: 1, TimeStep: 1)
#> CENPW_4_Inhibitor: CENPW = !KIF4A (Confidence: 1, TimeStep: 1)
#> CENPW_5_Inhibitor: CENPW = !MKI67 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CEP55 with decay value = 1:
#> CEP55_1_Activator: CEP55 = ATAD2 (Confidence: 1, TimeStep: 1)
#> CEP55_2_Activator: CEP55 = BIRC5 (Confidence: 1, TimeStep: 1)
#> CEP55_3_Activator: CEP55 = BUB1 (Confidence: 1, TimeStep: 1)
#> CEP55_4_Activator: CEP55 = CCNA2 (Confidence: 1, TimeStep: 1)
#> CEP55_5_Activator: CEP55 = CDCA5 (Confidence: 1, TimeStep: 1)
#> CEP55_1_Inhibitor: CEP55 = !ATAD2 (Confidence: 1, TimeStep: 1)
#> CEP55_2_Inhibitor: CEP55 = !BIRC5 (Confidence: 1, TimeStep: 1)
#> CEP55_3_Inhibitor: CEP55 = !BUB1 (Confidence: 1, TimeStep: 1)
#> CEP55_4_Inhibitor: CEP55 = !CCNA2 (Confidence: 1, TimeStep: 1)
#> CEP55_5_Inhibitor: CEP55 = !CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CHEK1 with decay value = 1:
#> CHEK1_1_Activator: CHEK1 = KIF2C (Confidence: 1, TimeStep: 1)
#> CHEK1_2_Activator: CHEK1 = ATAD2 (Confidence: 1, TimeStep: 1)
#> CHEK1_3_Activator: CHEK1 = BIRC5 (Confidence: 1, TimeStep: 1)
#> CHEK1_4_Activator: CHEK1 = BUB1 (Confidence: 1, TimeStep: 1)
#> CHEK1_5_Activator: CHEK1 = CCNA2 (Confidence: 1, TimeStep: 1)
#> CHEK1_1_Inhibitor: CHEK1 = !KIF2C (Confidence: 1, TimeStep: 1)
#> CHEK1_2_Inhibitor: CHEK1 = !CCNB2 (Confidence: 1, TimeStep: 1)
#> CHEK1_3_Inhibitor: CHEK1 = !CDC45 (Confidence: 1, TimeStep: 1)
#> CHEK1_4_Inhibitor: CHEK1 = !CENPA (Confidence: 1, TimeStep: 1)
#> CHEK1_5_Inhibitor: CHEK1 = !DLGAP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CKAP2 with decay value = 1:
#> CKAP2_1_Activator: CKAP2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CKAP2_2_Activator: CKAP2 = ASF1B (Confidence: 1, TimeStep: 1)
#> CKAP2_3_Activator: CKAP2 = AURKA (Confidence: 1, TimeStep: 1)
#> CKAP2_4_Activator: CKAP2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> CKAP2_5_Activator: CKAP2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> CKAP2_1_Inhibitor: CKAP2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CKAP2_2_Inhibitor: CKAP2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> CKAP2_3_Inhibitor: CKAP2 = !AURKA (Confidence: 1, TimeStep: 1)
#> CKAP2_4_Inhibitor: CKAP2 = BTG1 (Confidence: 1, TimeStep: 1)
#> CKAP2_5_Inhibitor: CKAP2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CKAP2L with decay value = 1:
#> CKAP2L_1_Activator: CKAP2L = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CKAP2L_2_Activator: CKAP2L = ASF1B (Confidence: 1, TimeStep: 1)
#> CKAP2L_3_Activator: CKAP2L = AURKA (Confidence: 1, TimeStep: 1)
#> CKAP2L_4_Activator: CKAP2L = !BTG1 (Confidence: 1, TimeStep: 1)
#> CKAP2L_5_Activator: CKAP2L = CCDC34 (Confidence: 1, TimeStep: 1)
#> CKAP2L_1_Inhibitor: CKAP2L = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> CKAP2L_2_Inhibitor: CKAP2L = !ASF1B (Confidence: 1, TimeStep: 1)
#> CKAP2L_3_Inhibitor: CKAP2L = !AURKA (Confidence: 1, TimeStep: 1)
#> CKAP2L_4_Inhibitor: CKAP2L = BTG1 (Confidence: 1, TimeStep: 1)
#> CKAP2L_5_Inhibitor: CKAP2L = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CKS1B with decay value = 1:
#> CKS1B_1_Activator: CKS1B = CCNB1 (Confidence: 1, TimeStep: 1)
#> CKS1B_2_Activator: CKS1B = CDK1 (Confidence: 1, TimeStep: 1)
#> CKS1B_3_Activator: CKS1B = HMMR (Confidence: 1, TimeStep: 1)
#> CKS1B_4_Activator: CKS1B = KIF14 (Confidence: 1, TimeStep: 1)
#> CKS1B_5_Activator: CKS1B = KIF20A (Confidence: 1, TimeStep: 1)
#> CKS1B_1_Inhibitor: CKS1B = !CCNB1 (Confidence: 1, TimeStep: 1)
#> CKS1B_2_Inhibitor: CKS1B = !BUB1B (Confidence: 1, TimeStep: 1)
#> CKS1B_3_Inhibitor: CKS1B = !CENPN (Confidence: 1, TimeStep: 1)
#> CKS1B_4_Inhibitor: CKS1B = !KIF15 (Confidence: 1, TimeStep: 1)
#> CKS1B_5_Inhibitor: CKS1B = !MCM10 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CLEC2B with decay value = 1:
#> CLEC2B_1_Activator: CLEC2B = LILRA1 (Confidence: 1, TimeStep: 1)
#> CLEC2B_2_Activator: CLEC2B = !APITD1-CORT&TUBA4A (Confidence: 1, TimeStep: 1)
#> CLEC2B_3_Activator: CLEC2B = !ANLN&TUBA4A (Confidence: 1, TimeStep: 1)
#> CLEC2B_4_Activator: CLEC2B = !APITD1-CORT&STAB1 (Confidence: 1, TimeStep: 1)
#> CLEC2B_5_Activator: CLEC2B = !ANLN&MPV17L (Confidence: 1, TimeStep: 1)
#> CLEC2B_1_Inhibitor: CLEC2B = CDT1 (Confidence: 1, TimeStep: 1)
#> CLEC2B_2_Inhibitor: CLEC2B = CENPU (Confidence: 1, TimeStep: 1)
#> CLEC2B_3_Inhibitor: CLEC2B = BRIP1 (Confidence: 1, TimeStep: 1)
#> CLEC2B_4_Inhibitor: CLEC2B = CHEK1 (Confidence: 1, TimeStep: 1)
#> CLEC2B_5_Inhibitor: CLEC2B = FANCI (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CLN8 with decay value = 1:
#> CLN8_1_Activator: CLN8 = !BMF&CLN8 (Confidence: 1, TimeStep: 1)
#> CLN8_1_Inhibitor: CLN8 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> CLN8_2_Inhibitor: CLN8 = !CLN8&!HRK (Confidence: 1, TimeStep: 1)
#> CLN8_3_Inhibitor: CLN8 = !BMF&!CLN8 (Confidence: 1, TimeStep: 1)
#> CLN8_4_Inhibitor: CLN8 = !BMF&!SMIM3 (Confidence: 1, TimeStep: 1)
#> CLN8_5_Inhibitor: CLN8 = !POU4F1&!SMIM3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CPM with decay value = 1:
#> CPM_1_Activator: CPM = CPM (Confidence: 1, TimeStep: 1)
#> CPM_2_Activator: CPM = !ARRDC3 (Confidence: 1, TimeStep: 2)
#> CPM_3_Activator: CPM = !LY96 (Confidence: 1, TimeStep: 2)
#> CPM_1_Inhibitor: CPM = !CD53 (Confidence: 1, TimeStep: 1)
#> CPM_2_Inhibitor: CPM = ECT2 (Confidence: 1, TimeStep: 1)
#> CPM_3_Inhibitor: CPM = GGH (Confidence: 1, TimeStep: 1)
#> CPM_4_Inhibitor: CPM = FOXM1 (Confidence: 1, TimeStep: 1)
#> CPM_5_Inhibitor: CPM = KIF2C (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for CRNDE with decay value = 1:
#> CRNDE_1_Activator: CRNDE = HELLS (Confidence: 1, TimeStep: 1)
#> CRNDE_2_Activator: CRNDE = !TMEM2 (Confidence: 1, TimeStep: 1)
#> CRNDE_3_Activator: CRNDE = ANP32E (Confidence: 1, TimeStep: 1)
#> CRNDE_4_Activator: CRNDE = ECT2 (Confidence: 1, TimeStep: 1)
#> CRNDE_5_Activator: CRNDE = FH (Confidence: 1, TimeStep: 1)
#> CRNDE_1_Inhibitor: CRNDE = !CRNDE (Confidence: 1, TimeStep: 1)
#> CRNDE_2_Inhibitor: CRNDE = LGALS3 (Confidence: 1, TimeStep: 1)
#> CRNDE_3_Inhibitor: CRNDE = RAB31 (Confidence: 1, TimeStep: 1)
#> CRNDE_4_Inhibitor: CRNDE = LILRA1 (Confidence: 1, TimeStep: 1)
#> CRNDE_5_Inhibitor: CRNDE = CDC42EP3&!LOC100996643 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DDIT4 with decay value = 1:
#> DDIT4_1_Activator: DDIT4 = RBMS3 (Confidence: 1, TimeStep: 1)
#> DDIT4_2_Activator: DDIT4 = PFKFB2 (Confidence: 1, TimeStep: 1)
#> DDIT4_3_Activator: DDIT4 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> DDIT4_4_Activator: DDIT4 = !CEP55&SMIM3 (Confidence: 1, TimeStep: 1)
#> DDIT4_5_Activator: DDIT4 = !CKAP2L&SMIM3 (Confidence: 1, TimeStep: 1)
#> DDIT4_1_Inhibitor: DDIT4 = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> DDIT4_2_Inhibitor: DDIT4 = HIST4H4&!SMIM3 (Confidence: 1, TimeStep: 1)
#> DDIT4_3_Inhibitor: DDIT4 = C4orf46&!SMIM3 (Confidence: 1, TimeStep: 1)
#> DDIT4_4_Inhibitor: DDIT4 = MKI67&!SMIM3 (Confidence: 1, TimeStep: 1)
#> DDIT4_5_Inhibitor: DDIT4 = PRR11&!SMIM3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DEFA1 with decay value = 1:
#> DEFA1_1_Activator: DEFA1 = !FH&LOC100505650 (Confidence: 1, TimeStep: 1)
#> DEFA1_2_Activator: DEFA1 = !CKS1B&LOC100505650 (Confidence: 1, TimeStep: 1)
#> DEFA1_3_Activator: DEFA1 = !LGALS3&LOC100130872 (Confidence: 1, TimeStep: 1)
#> DEFA1_4_Activator: DEFA1 = !IGH&LOC100130872 (Confidence: 1, TimeStep: 1)
#> DEFA1_5_Activator: DEFA1 = CKS1B&!IGLL1 (Confidence: 1, TimeStep: 1)
#> DEFA1_1_Inhibitor: DEFA1 = !HBB (Confidence: 1, TimeStep: 1)
#> DEFA1_2_Inhibitor: DEFA1 = !S100A8 (Confidence: 1, TimeStep: 1)
#> DEFA1_3_Inhibitor: DEFA1 = RFC3 (Confidence: 1, TimeStep: 1)
#> DEFA1_4_Inhibitor: DEFA1 = SHCBP1 (Confidence: 1, TimeStep: 1)
#> DEFA1_5_Inhibitor: DEFA1 = FH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DENND3 with decay value = 1:
#> DENND3_1_Activator: DENND3 = DENND3&IL1B (Confidence: 1, TimeStep: 1)
#> DENND3_2_Activator: DENND3 = DENND3&!ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> DENND3_3_Activator: DENND3 = DENND3&!LOC100130872 (Confidence: 1, TimeStep: 1)
#> DENND3_4_Activator: DENND3 = DENND3&RAG1 (Confidence: 1, TimeStep: 1)
#> DENND3_5_Activator: DENND3 = DENND3&!SEMA4D (Confidence: 1, TimeStep: 1)
#> DENND3_1_Inhibitor: DENND3 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> DENND3_2_Inhibitor: DENND3 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> DENND3_3_Inhibitor: DENND3 = !METTL7A (Confidence: 1, TimeStep: 1)
#> DENND3_4_Inhibitor: DENND3 = SEMA4D (Confidence: 1, TimeStep: 1)
#> DENND3_5_Inhibitor: DENND3 = !WASF1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DEPDC1 with decay value = 1:
#> DEPDC1_1_Activator: DEPDC1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DEPDC1_2_Activator: DEPDC1 = ASF1B (Confidence: 1, TimeStep: 1)
#> DEPDC1_3_Activator: DEPDC1 = AURKA (Confidence: 1, TimeStep: 1)
#> DEPDC1_4_Activator: DEPDC1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> DEPDC1_5_Activator: DEPDC1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> DEPDC1_1_Inhibitor: DEPDC1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DEPDC1_2_Inhibitor: DEPDC1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> DEPDC1_3_Inhibitor: DEPDC1 = !AURKA (Confidence: 1, TimeStep: 1)
#> DEPDC1_4_Inhibitor: DEPDC1 = BTG1 (Confidence: 1, TimeStep: 1)
#> DEPDC1_5_Inhibitor: DEPDC1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DEPDC1B with decay value = 1:
#> DEPDC1B_1_Activator: DEPDC1B = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DEPDC1B_2_Activator: DEPDC1B = ASF1B (Confidence: 1, TimeStep: 1)
#> DEPDC1B_3_Activator: DEPDC1B = AURKA (Confidence: 1, TimeStep: 1)
#> DEPDC1B_4_Activator: DEPDC1B = !BTG1 (Confidence: 1, TimeStep: 1)
#> DEPDC1B_5_Activator: DEPDC1B = CCDC34 (Confidence: 1, TimeStep: 1)
#> DEPDC1B_1_Inhibitor: DEPDC1B = !CENPF (Confidence: 1, TimeStep: 1)
#> DEPDC1B_2_Inhibitor: DEPDC1B = !DEPDC1B (Confidence: 1, TimeStep: 1)
#> DEPDC1B_3_Inhibitor: DEPDC1B = !NEK2 (Confidence: 1, TimeStep: 1)
#> DEPDC1B_4_Inhibitor: DEPDC1B = !ANP32E (Confidence: 1, TimeStep: 1)
#> DEPDC1B_5_Inhibitor: DEPDC1B = !FH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DFNA5 with decay value = 1:
#> DFNA5_1_Activator: DFNA5 = DFNA5 (Confidence: 1, TimeStep: 1)
#> DFNA5_2_Activator: DFNA5 = DEPDC1B (Confidence: 1, TimeStep: 1)
#> DFNA5_3_Activator: DFNA5 = PTTG1 (Confidence: 1, TimeStep: 1)
#> DFNA5_4_Activator: DFNA5 = CKAP2L (Confidence: 1, TimeStep: 1)
#> DFNA5_5_Activator: DFNA5 = AURKB (Confidence: 1, TimeStep: 1)
#> DFNA5_1_Inhibitor: DFNA5 = !FABP5 (Confidence: 1, TimeStep: 1)
#> DFNA5_2_Inhibitor: DFNA5 = !HSP90AB1 (Confidence: 1, TimeStep: 1)
#> DFNA5_3_Inhibitor: DFNA5 = MPV17L (Confidence: 1, TimeStep: 1)
#> DFNA5_4_Inhibitor: DFNA5 = !IGLL1 (Confidence: 1, TimeStep: 1)
#> DFNA5_5_Inhibitor: DFNA5 = LGALS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DHFR with decay value = 1:
#> DHFR_1_Activator: DHFR = CDK1 (Confidence: 1, TimeStep: 1)
#> DHFR_2_Activator: DHFR = HMMR (Confidence: 1, TimeStep: 1)
#> DHFR_3_Activator: DHFR = KIF14 (Confidence: 1, TimeStep: 1)
#> DHFR_4_Activator: DHFR = KIF20A (Confidence: 1, TimeStep: 1)
#> DHFR_5_Activator: DHFR = POLQ (Confidence: 1, TimeStep: 1)
#> DHFR_1_Inhibitor: DHFR = !CDK1 (Confidence: 1, TimeStep: 1)
#> DHFR_2_Inhibitor: DHFR = !HMMR (Confidence: 1, TimeStep: 1)
#> DHFR_3_Inhibitor: DHFR = !KIF14 (Confidence: 1, TimeStep: 1)
#> DHFR_4_Inhibitor: DHFR = !KIF20A (Confidence: 1, TimeStep: 1)
#> DHFR_5_Inhibitor: DHFR = !POLQ (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DHX9 with decay value = 1:
#> DHX9_1_Activator: DHX9 = KIF11 (Confidence: 1, TimeStep: 1)
#> DHX9_2_Activator: DHX9 = CDC20 (Confidence: 1, TimeStep: 1)
#> DHX9_3_Activator: DHX9 = KIF4A (Confidence: 1, TimeStep: 1)
#> DHX9_4_Activator: DHX9 = NUSAP1 (Confidence: 1, TimeStep: 1)
#> DHX9_5_Activator: DHX9 = ZWINT (Confidence: 1, TimeStep: 1)
#> DHX9_1_Inhibitor: DHX9 = LGALS3 (Confidence: 1, TimeStep: 1)
#> DHX9_2_Inhibitor: DHX9 = LILRA1 (Confidence: 1, TimeStep: 1)
#> DHX9_3_Inhibitor: DHX9 = HBB&!ZNF367 (Confidence: 1, TimeStep: 1)
#> DHX9_4_Inhibitor: DHX9 = !DTL&HBB (Confidence: 1, TimeStep: 1)
#> DHX9_5_Inhibitor: DHX9 = !GINS2&HBB (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DLGAP5 with decay value = 1:
#> DLGAP5_1_Activator: DLGAP5 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DLGAP5_2_Activator: DLGAP5 = ASF1B (Confidence: 1, TimeStep: 1)
#> DLGAP5_3_Activator: DLGAP5 = AURKA (Confidence: 1, TimeStep: 1)
#> DLGAP5_4_Activator: DLGAP5 = !BTG1 (Confidence: 1, TimeStep: 1)
#> DLGAP5_5_Activator: DLGAP5 = CCDC34 (Confidence: 1, TimeStep: 1)
#> DLGAP5_1_Inhibitor: DLGAP5 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DLGAP5_2_Inhibitor: DLGAP5 = !ASF1B (Confidence: 1, TimeStep: 1)
#> DLGAP5_3_Inhibitor: DLGAP5 = !AURKA (Confidence: 1, TimeStep: 1)
#> DLGAP5_4_Inhibitor: DLGAP5 = BTG1 (Confidence: 1, TimeStep: 1)
#> DLGAP5_5_Inhibitor: DLGAP5 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DPEP1 with decay value = 1:
#> DPEP1_1_Activator: DPEP1 = DPEP1 (Confidence: 1, TimeStep: 1)
#> DPEP1_2_Activator: DPEP1 = HRK (Confidence: 1, TimeStep: 1)
#> DPEP1_3_Activator: DPEP1 = POU4F1 (Confidence: 1, TimeStep: 1)
#> DPEP1_4_Activator: DPEP1 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> DPEP1_5_Activator: DPEP1 = ISG20&!LILRA1 (Confidence: 1, TimeStep: 1)
#> DPEP1_1_Inhibitor: DPEP1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> DPEP1_2_Inhibitor: DPEP1 = !METTL7A (Confidence: 1, TimeStep: 1)
#> DPEP1_3_Inhibitor: DPEP1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> DPEP1_4_Inhibitor: DPEP1 = !ARPP21&!MSH6 (Confidence: 1, TimeStep: 1)
#> DPEP1_5_Inhibitor: DPEP1 = !ARPP21&!SIK1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DSCC1 with decay value = 1:
#> DSCC1_1_Activator: DSCC1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DSCC1_2_Activator: DSCC1 = ASF1B (Confidence: 1, TimeStep: 1)
#> DSCC1_3_Activator: DSCC1 = AURKA (Confidence: 1, TimeStep: 1)
#> DSCC1_4_Activator: DSCC1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> DSCC1_5_Activator: DSCC1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> DSCC1_1_Inhibitor: DSCC1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> DSCC1_2_Inhibitor: DSCC1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> DSCC1_3_Inhibitor: DSCC1 = !AURKA (Confidence: 1, TimeStep: 1)
#> DSCC1_4_Inhibitor: DSCC1 = BTG1 (Confidence: 1, TimeStep: 1)
#> DSCC1_5_Inhibitor: DSCC1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for DTL with decay value = 1:
#> DTL_1_Activator: DTL = ANLN (Confidence: 1, TimeStep: 1)
#> DTL_2_Activator: DTL = CEP55 (Confidence: 1, TimeStep: 1)
#> DTL_3_Activator: DTL = CCNB2 (Confidence: 1, TimeStep: 1)
#> DTL_4_Activator: DTL = CDC45 (Confidence: 1, TimeStep: 1)
#> DTL_5_Activator: DTL = CENPA (Confidence: 1, TimeStep: 1)
#> DTL_1_Inhibitor: DTL = !ZNF367 (Confidence: 1, TimeStep: 1)
#> DTL_2_Inhibitor: DTL = !E2F8 (Confidence: 1, TimeStep: 1)
#> DTL_3_Inhibitor: DTL = !GINS2 (Confidence: 1, TimeStep: 1)
#> DTL_4_Inhibitor: DTL = !DTL (Confidence: 1, TimeStep: 1)
#> DTL_5_Inhibitor: DTL = !MCM7 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for E2F7 with decay value = 1:
#> E2F7_1_Activator: E2F7 = ATAD2 (Confidence: 1, TimeStep: 1)
#> E2F7_2_Activator: E2F7 = BIRC5 (Confidence: 1, TimeStep: 1)
#> E2F7_3_Activator: E2F7 = BUB1 (Confidence: 1, TimeStep: 1)
#> E2F7_4_Activator: E2F7 = CCNA2 (Confidence: 1, TimeStep: 1)
#> E2F7_5_Activator: E2F7 = CDCA5 (Confidence: 1, TimeStep: 1)
#> E2F7_1_Inhibitor: E2F7 = !CKS1B (Confidence: 1, TimeStep: 1)
#> E2F7_2_Inhibitor: E2F7 = GIMAP4 (Confidence: 1, TimeStep: 1)
#> E2F7_3_Inhibitor: E2F7 = LILRB2 (Confidence: 1, TimeStep: 1)
#> E2F7_4_Inhibitor: E2F7 = RNASET2 (Confidence: 1, TimeStep: 1)
#> E2F7_5_Inhibitor: E2F7 = !TIMELESS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for E2F8 with decay value = 1:
#> E2F8_1_Activator: E2F8 = CKAP2L (Confidence: 1, TimeStep: 1)
#> E2F8_2_Activator: E2F8 = KIF18B (Confidence: 1, TimeStep: 1)
#> E2F8_3_Activator: E2F8 = UBE2T (Confidence: 1, TimeStep: 1)
#> E2F8_4_Activator: E2F8 = ATAD2 (Confidence: 1, TimeStep: 1)
#> E2F8_5_Activator: E2F8 = AURKB (Confidence: 1, TimeStep: 1)
#> E2F8_1_Inhibitor: E2F8 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> E2F8_2_Inhibitor: E2F8 = !BYSL (Confidence: 1, TimeStep: 1)
#> E2F8_3_Inhibitor: E2F8 = !SELENOI (Confidence: 1, TimeStep: 1)
#> E2F8_4_Inhibitor: E2F8 = CCR1 (Confidence: 1, TimeStep: 1)
#> E2F8_5_Inhibitor: E2F8 = !PTP4A1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ECT2 with decay value = 1:
#> ECT2_1_Activator: ECT2 = ECT2 (Confidence: 1, TimeStep: 1)
#> ECT2_2_Activator: ECT2 = FOXM1 (Confidence: 1, TimeStep: 1)
#> ECT2_3_Activator: ECT2 = STIL (Confidence: 1, TimeStep: 1)
#> ECT2_4_Activator: ECT2 = ATAD2 (Confidence: 1, TimeStep: 1)
#> ECT2_5_Activator: ECT2 = BIRC5 (Confidence: 1, TimeStep: 1)
#> ECT2_1_Inhibitor: ECT2 = !ECT2 (Confidence: 1, TimeStep: 1)
#> ECT2_2_Inhibitor: ECT2 = !CENPK (Confidence: 1, TimeStep: 1)
#> ECT2_3_Inhibitor: ECT2 = ISG20 (Confidence: 1, TimeStep: 1)
#> ECT2_4_Inhibitor: ECT2 = GBP4 (Confidence: 1, TimeStep: 1)
#> ECT2_5_Inhibitor: ECT2 = LILRB2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for EGR1 with decay value = 1:
#> EGR1_1_Activator: EGR1 = !DEPDC1B&EGR1&PAICS (Confidence: 1, TimeStep: 1)
#> EGR1_2_Activator: EGR1 = !LYZ (Confidence: 1, TimeStep: 2)
#> EGR1_3_Activator: EGR1 = GGH (Confidence: 1, TimeStep: 2)
#> EGR1_4_Activator: EGR1 = !S100A8 (Confidence: 1, TimeStep: 2)
#> EGR1_1_Inhibitor: EGR1 = DEPDC1B (Confidence: 1, TimeStep: 1)
#> EGR1_2_Inhibitor: EGR1 = !GGH&LYZ (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for ELL2 with decay value = 1:
#> ELL2_1_Activator: ELL2 = ELL2 (Confidence: 1, TimeStep: 1)
#> ELL2_2_Activator: ELL2 = KLF9&!NEDD9 (Confidence: 1, TimeStep: 1)
#> ELL2_3_Activator: ELL2 = !GIMAP7&KLF9 (Confidence: 1, TimeStep: 1)
#> ELL2_4_Activator: ELL2 = !CELF2 (Confidence: 1, TimeStep: 2)
#> ELL2_1_Inhibitor: ELL2 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> ELL2_2_Inhibitor: ELL2 = CELF2&!KLF9 (Confidence: 1, TimeStep: 1)
#> ELL2_3_Inhibitor: ELL2 = CELF2&!ELL2&GIMAP7 (Confidence: 1, TimeStep: 1)
#> ELL2_4_Inhibitor: ELL2 = !PAICS (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for EMP1 with decay value = 1:
#> EMP1_1_Activator: EMP1 = !BCL2L11&EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_2_Activator: EMP1 = !CENPU&EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_3_Activator: EMP1 = DENND3&EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_4_Activator: EMP1 = !E2F7&EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_5_Activator: EMP1 = !ECT2&EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_1_Inhibitor: EMP1 = !EMP1 (Confidence: 1, TimeStep: 1)
#> EMP1_2_Inhibitor: EMP1 = !IL1B (Confidence: 1, TimeStep: 1)
#> EMP1_3_Inhibitor: EMP1 = !DENND3 (Confidence: 1, TimeStep: 1)
#> EMP1_4_Inhibitor: EMP1 = !B3GNT2 (Confidence: 1, TimeStep: 1)
#> EMP1_5_Inhibitor: EMP1 = BCL2L11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for EPPK1 with decay value = 1:
#> EPPK1_1_Activator: EPPK1 = BTNL9&!CRNDE (Confidence: 1, TimeStep: 1)
#> EPPK1_2_Activator: EPPK1 = BTNL9&CDC42EP3 (Confidence: 1, TimeStep: 1)
#> EPPK1_3_Activator: EPPK1 = CLN8&!SNTB2 (Confidence: 1, TimeStep: 1)
#> EPPK1_4_Activator: EPPK1 = !CPM&EPPK1 (Confidence: 1, TimeStep: 1)
#> EPPK1_5_Activator: EPPK1 = !CPM&!CRNDE&P2RX5 (Confidence: 1, TimeStep: 1)
#> EPPK1_1_Inhibitor: EPPK1 = BCL2L11 (Confidence: 1, TimeStep: 1)
#> EPPK1_2_Inhibitor: EPPK1 = !IRAK3 (Confidence: 1, TimeStep: 1)
#> EPPK1_3_Inhibitor: EPPK1 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> EPPK1_4_Inhibitor: EPPK1 = S100A11 (Confidence: 1, TimeStep: 1)
#> EPPK1_5_Inhibitor: EPPK1 = CKS1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for F13A1 with decay value = 1:
#> F13A1_1_Activator: F13A1 = F13A1 (Confidence: 1, TimeStep: 1)
#> F13A1_2_Activator: F13A1 = !BYSL&FGL2 (Confidence: 1, TimeStep: 1)
#> F13A1_3_Activator: F13A1 = CD53&FGL2 (Confidence: 1, TimeStep: 1)
#> F13A1_4_Activator: F13A1 = CDC42EP3&FGD2 (Confidence: 1, TimeStep: 1)
#> F13A1_5_Activator: F13A1 = CDC42EP3&!RHOBTB3 (Confidence: 1, TimeStep: 1)
#> F13A1_1_Inhibitor: F13A1 = !MIR8071-1 (Confidence: 1, TimeStep: 1)
#> F13A1_2_Inhibitor: F13A1 = !MTSS1 (Confidence: 1, TimeStep: 1)
#> F13A1_3_Inhibitor: F13A1 = !PDE4B (Confidence: 1, TimeStep: 1)
#> F13A1_4_Inhibitor: F13A1 = !SERPINB9 (Confidence: 1, TimeStep: 1)
#> F13A1_5_Inhibitor: F13A1 = CCDC86 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FABP5 with decay value = 1:
#> FABP5_1_Activator: FABP5 = NME1 (Confidence: 1, TimeStep: 1)
#> FABP5_2_Activator: FABP5 = KIF11 (Confidence: 1, TimeStep: 1)
#> FABP5_3_Activator: FABP5 = MTHFD2 (Confidence: 1, TimeStep: 1)
#> FABP5_4_Activator: FABP5 = CDC20 (Confidence: 1, TimeStep: 1)
#> FABP5_5_Activator: FABP5 = KIF4A (Confidence: 1, TimeStep: 1)
#> FABP5_1_Inhibitor: FABP5 = LGALS3 (Confidence: 1, TimeStep: 1)
#> FABP5_2_Inhibitor: FABP5 = RAB31 (Confidence: 1, TimeStep: 1)
#> FABP5_3_Inhibitor: FABP5 = !CCDC86&HBG1 (Confidence: 1, TimeStep: 1)
#> FABP5_4_Inhibitor: FABP5 = HBG1&!RBM14 (Confidence: 1, TimeStep: 1)
#> FABP5_5_Inhibitor: FABP5 = !BYSL&HBG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FAM72C with decay value = 1:
#> FAM72C_1_Activator: FAM72C = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> FAM72C_2_Activator: FAM72C = ASF1B (Confidence: 1, TimeStep: 1)
#> FAM72C_3_Activator: FAM72C = AURKA (Confidence: 1, TimeStep: 1)
#> FAM72C_4_Activator: FAM72C = !BTG1 (Confidence: 1, TimeStep: 1)
#> FAM72C_5_Activator: FAM72C = CCDC34 (Confidence: 1, TimeStep: 1)
#> FAM72C_1_Inhibitor: FAM72C = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> FAM72C_2_Inhibitor: FAM72C = !ASF1B (Confidence: 1, TimeStep: 1)
#> FAM72C_3_Inhibitor: FAM72C = !AURKA (Confidence: 1, TimeStep: 1)
#> FAM72C_4_Inhibitor: FAM72C = BTG1 (Confidence: 1, TimeStep: 1)
#> FAM72C_5_Inhibitor: FAM72C = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FANCI with decay value = 1:
#> FANCI_1_Activator: FANCI = FOXM1 (Confidence: 1, TimeStep: 1)
#> FANCI_2_Activator: FANCI = KIF2C (Confidence: 1, TimeStep: 1)
#> FANCI_3_Activator: FANCI = STIL (Confidence: 1, TimeStep: 1)
#> FANCI_4_Activator: FANCI = ATAD2 (Confidence: 1, TimeStep: 1)
#> FANCI_5_Activator: FANCI = BIRC5 (Confidence: 1, TimeStep: 1)
#> FANCI_1_Inhibitor: FANCI = !ANLN (Confidence: 1, TimeStep: 1)
#> FANCI_2_Inhibitor: FANCI = !BRIP1 (Confidence: 1, TimeStep: 1)
#> FANCI_3_Inhibitor: FANCI = !CHEK1 (Confidence: 1, TimeStep: 1)
#> FANCI_4_Inhibitor: FANCI = !FANCI (Confidence: 1, TimeStep: 1)
#> FANCI_5_Inhibitor: FANCI = !HELLS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FCER1G with decay value = 1:
#> FCER1G_1_Activator: FCER1G = LILRA1 (Confidence: 1, TimeStep: 1)
#> FCER1G_2_Activator: FCER1G = GVINP1&IGH (Confidence: 1, TimeStep: 1)
#> FCER1G_3_Activator: FCER1G = GVINP1&IL18R1 (Confidence: 1, TimeStep: 1)
#> FCER1G_4_Activator: FCER1G = GVINP1&!PRPS2 (Confidence: 1, TimeStep: 1)
#> FCER1G_5_Activator: FCER1G = BIRC3&FGL2 (Confidence: 1, TimeStep: 1)
#> FCER1G_1_Inhibitor: FCER1G = IQGAP3 (Confidence: 1, TimeStep: 1)
#> FCER1G_2_Inhibitor: FCER1G = TMEM97 (Confidence: 1, TimeStep: 1)
#> FCER1G_3_Inhibitor: FCER1G = WDHD1 (Confidence: 1, TimeStep: 1)
#> FCER1G_4_Inhibitor: FCER1G = CENPH (Confidence: 1, TimeStep: 1)
#> FCER1G_5_Inhibitor: FCER1G = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FCGR3B with decay value = 1:
#> FCGR3B_1_Activator: FCGR3B = FGL2 (Confidence: 1, TimeStep: 1)
#> FCGR3B_2_Activator: FCGR3B = LILRA1 (Confidence: 1, TimeStep: 1)
#> FCGR3B_3_Activator: FCGR3B = !E2F7&FCGR3B (Confidence: 1, TimeStep: 1)
#> FCGR3B_4_Activator: FCGR3B = FCGR3B&!MTHFD2 (Confidence: 1, TimeStep: 1)
#> FCGR3B_5_Activator: FCGR3B = !CCDC86&FCGR3B (Confidence: 1, TimeStep: 1)
#> FCGR3B_1_Inhibitor: FCGR3B = IQGAP3 (Confidence: 1, TimeStep: 1)
#> FCGR3B_2_Inhibitor: FCGR3B = TMEM97 (Confidence: 1, TimeStep: 1)
#> FCGR3B_3_Inhibitor: FCGR3B = WDHD1 (Confidence: 1, TimeStep: 1)
#> FCGR3B_4_Inhibitor: FCGR3B = CENPH (Confidence: 1, TimeStep: 1)
#> FCGR3B_5_Inhibitor: FCGR3B = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FEN1 with decay value = 1:
#> FEN1_1_Activator: FEN1 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> FEN1_2_Activator: FEN1 = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> FEN1_3_Activator: FEN1 = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> FEN1_4_Activator: FEN1 = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> FEN1_5_Activator: FEN1 = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> FEN1_1_Inhibitor: FEN1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> FEN1_2_Inhibitor: FEN1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> FEN1_3_Inhibitor: FEN1 = !AURKA (Confidence: 1, TimeStep: 1)
#> FEN1_4_Inhibitor: FEN1 = BTG1 (Confidence: 1, TimeStep: 1)
#> FEN1_5_Inhibitor: FEN1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FGD2 with decay value = 1:
#> FGD2_1_Activator: FGD2 = FGD2 (Confidence: 1, TimeStep: 1)
#> FGD2_2_Activator: FGD2 = LILRA1 (Confidence: 1, TimeStep: 1)
#> FGD2_3_Activator: FGD2 = FCGR3B&IL6ST (Confidence: 1, TimeStep: 1)
#> FGD2_4_Activator: FGD2 = !ANLN&F13A1 (Confidence: 1, TimeStep: 1)
#> FGD2_5_Activator: FGD2 = !CEP55&F13A1 (Confidence: 1, TimeStep: 1)
#> FGD2_1_Inhibitor: FGD2 = !SMAP2 (Confidence: 1, TimeStep: 1)
#> FGD2_2_Inhibitor: FGD2 = ECT2 (Confidence: 1, TimeStep: 1)
#> FGD2_3_Inhibitor: FGD2 = !MS4A1 (Confidence: 1, TimeStep: 1)
#> FGD2_4_Inhibitor: FGD2 = FOXM1 (Confidence: 1, TimeStep: 1)
#> FGD2_5_Inhibitor: FGD2 = STIL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FGL2 with decay value = 1:
#> FGL2_1_Activator: FGL2 = BIRC3&FGL2 (Confidence: 1, TimeStep: 1)
#> FGL2_2_Activator: FGL2 = BIRC3&PPBP (Confidence: 1, TimeStep: 1)
#> FGL2_3_Activator: FGL2 = F13A1&!MYRIP (Confidence: 1, TimeStep: 1)
#> FGL2_4_Activator: FGL2 = BIRC3&F13A1 (Confidence: 1, TimeStep: 1)
#> FGL2_5_Activator: FGL2 = CDC42EP3&!ID3 (Confidence: 1, TimeStep: 1)
#> FGL2_1_Inhibitor: FGL2 = !PIK3IP1 (Confidence: 1, TimeStep: 1)
#> FGL2_2_Inhibitor: FGL2 = !LYZ (Confidence: 1, TimeStep: 1)
#> FGL2_3_Inhibitor: FGL2 = KIF11 (Confidence: 1, TimeStep: 1)
#> FGL2_4_Inhibitor: FGL2 = MTHFD2 (Confidence: 1, TimeStep: 1)
#> FGL2_5_Inhibitor: FGL2 = NUF2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FGR with decay value = 1:
#> FGR_1_Activator: FGR = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> FGR_2_Activator: FGR = LOC100130872 (Confidence: 1, TimeStep: 1)
#> FGR_3_Activator: FGR = BCL10 (Confidence: 1, TimeStep: 1)
#> FGR_4_Activator: FGR = !ANP32E&TNFSF8 (Confidence: 1, TimeStep: 1)
#> FGR_5_Activator: FGR = !ASPM&TNFSF8 (Confidence: 1, TimeStep: 1)
#> FGR_1_Inhibitor: FGR = FH (Confidence: 1, TimeStep: 1)
#> FGR_2_Inhibitor: FGR = IQGAP3 (Confidence: 1, TimeStep: 1)
#> FGR_3_Inhibitor: FGR = TMEM97 (Confidence: 1, TimeStep: 1)
#> FGR_4_Inhibitor: FGR = WDHD1 (Confidence: 1, TimeStep: 1)
#> FGR_5_Inhibitor: FGR = CENPH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FH with decay value = 1:
#> FH_1_Activator: FH = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> FH_2_Activator: FH = ASF1B (Confidence: 1, TimeStep: 1)
#> FH_3_Activator: FH = AURKA (Confidence: 1, TimeStep: 1)
#> FH_4_Activator: FH = !BTG1 (Confidence: 1, TimeStep: 1)
#> FH_5_Activator: FH = CCDC34 (Confidence: 1, TimeStep: 1)
#> FH_1_Inhibitor: FH = !DEPDC1B (Confidence: 1, TimeStep: 1)
#> FH_2_Inhibitor: FH = !ANP32E (Confidence: 1, TimeStep: 1)
#> FH_3_Inhibitor: FH = !FH (Confidence: 1, TimeStep: 1)
#> FH_4_Inhibitor: FH = !E2F7 (Confidence: 1, TimeStep: 1)
#> FH_5_Inhibitor: FH = NEAT1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FKBP5 with decay value = 1:
#> 
#> Multiple Transition Functions for FOXM1 with decay value = 1:
#> FOXM1_1_Activator: FOXM1 = ATAD2 (Confidence: 1, TimeStep: 1)
#> FOXM1_2_Activator: FOXM1 = BIRC5 (Confidence: 1, TimeStep: 1)
#> FOXM1_3_Activator: FOXM1 = BUB1 (Confidence: 1, TimeStep: 1)
#> FOXM1_4_Activator: FOXM1 = CCNA2 (Confidence: 1, TimeStep: 1)
#> FOXM1_5_Activator: FOXM1 = CDCA5 (Confidence: 1, TimeStep: 1)
#> FOXM1_1_Inhibitor: FOXM1 = !ATAD2 (Confidence: 1, TimeStep: 1)
#> FOXM1_2_Inhibitor: FOXM1 = !BIRC5 (Confidence: 1, TimeStep: 1)
#> FOXM1_3_Inhibitor: FOXM1 = !BUB1 (Confidence: 1, TimeStep: 1)
#> FOXM1_4_Inhibitor: FOXM1 = !CCNA2 (Confidence: 1, TimeStep: 1)
#> FOXM1_5_Inhibitor: FOXM1 = !CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for FUS with decay value = 1:
#> FUS_1_Activator: FUS = C5orf24&MPV17L (Confidence: 1, TimeStep: 1)
#> FUS_2_Activator: FUS = DTL&HBG1 (Confidence: 1, TimeStep: 1)
#> FUS_3_Activator: FUS = BRCA1&HBG1 (Confidence: 1, TimeStep: 1)
#> FUS_4_Activator: FUS = BYSL&!IGLL1 (Confidence: 1, TimeStep: 1)
#> FUS_5_Activator: FUS = !CELF2&GVINP1 (Confidence: 1, TimeStep: 1)
#> FUS_1_Inhibitor: FUS = CCNB1 (Confidence: 1, TimeStep: 1)
#> FUS_2_Inhibitor: FUS = IQGAP3 (Confidence: 1, TimeStep: 1)
#> FUS_3_Inhibitor: FUS = PTTG1 (Confidence: 1, TimeStep: 1)
#> FUS_4_Inhibitor: FUS = CDK1 (Confidence: 1, TimeStep: 1)
#> FUS_5_Inhibitor: FUS = CKAP2L (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GBP4 with decay value = 1:
#> GBP4_1_Activator: GBP4 = !CDT1&DENND3 (Confidence: 1, TimeStep: 1)
#> GBP4_2_Activator: GBP4 = DENND3&!KNL1 (Confidence: 1, TimeStep: 1)
#> GBP4_3_Activator: GBP4 = !CDT1&IL1B (Confidence: 1, TimeStep: 1)
#> GBP4_4_Activator: GBP4 = DENND3&!MCM5 (Confidence: 1, TimeStep: 1)
#> GBP4_5_Activator: GBP4 = DENND3&!RAD51 (Confidence: 1, TimeStep: 1)
#> GBP4_1_Inhibitor: GBP4 = !GBP4 (Confidence: 1, TimeStep: 1)
#> GBP4_2_Inhibitor: GBP4 = KNL1 (Confidence: 1, TimeStep: 1)
#> GBP4_3_Inhibitor: GBP4 = CDT1 (Confidence: 1, TimeStep: 1)
#> GBP4_4_Inhibitor: GBP4 = BRIP1 (Confidence: 1, TimeStep: 1)
#> GBP4_5_Inhibitor: GBP4 = C4orf46 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GGH with decay value = 1:
#> GGH_1_Activator: GGH = CENPH (Confidence: 1, TimeStep: 1)
#> GGH_2_Activator: GGH = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> GGH_3_Activator: GGH = ASF1B (Confidence: 1, TimeStep: 1)
#> GGH_4_Activator: GGH = AURKA (Confidence: 1, TimeStep: 1)
#> GGH_5_Activator: GGH = !BTG1 (Confidence: 1, TimeStep: 1)
#> GGH_1_Inhibitor: GGH = !CENPH (Confidence: 1, TimeStep: 1)
#> GGH_2_Inhibitor: GGH = !CDK1 (Confidence: 1, TimeStep: 1)
#> GGH_3_Inhibitor: GGH = !HMMR (Confidence: 1, TimeStep: 1)
#> GGH_4_Inhibitor: GGH = !KIF14 (Confidence: 1, TimeStep: 1)
#> GGH_5_Inhibitor: GGH = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GIMAP4 with decay value = 1:
#> GIMAP4_1_Activator: GIMAP4 = CCR1 (Confidence: 1, TimeStep: 1)
#> GIMAP4_2_Activator: GIMAP4 = GVINP1 (Confidence: 1, TimeStep: 1)
#> GIMAP4_3_Activator: GIMAP4 = F13A1 (Confidence: 1, TimeStep: 1)
#> GIMAP4_4_Activator: GIMAP4 = FGL2 (Confidence: 1, TimeStep: 1)
#> GIMAP4_5_Activator: GIMAP4 = !ANP32E&PIK3IP1 (Confidence: 1, TimeStep: 1)
#> GIMAP4_1_Inhibitor: GIMAP4 = E2F7 (Confidence: 1, TimeStep: 1)
#> GIMAP4_2_Inhibitor: GIMAP4 = DEPDC1B (Confidence: 1, TimeStep: 1)
#> GIMAP4_3_Inhibitor: GIMAP4 = FOXM1 (Confidence: 1, TimeStep: 1)
#> GIMAP4_4_Inhibitor: GIMAP4 = KIF18B (Confidence: 1, TimeStep: 1)
#> GIMAP4_5_Inhibitor: GIMAP4 = STIL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GIMAP7 with decay value = 1:
#> GIMAP7_1_Activator: GIMAP7 = GVINP1 (Confidence: 1, TimeStep: 1)
#> GIMAP7_2_Activator: GIMAP7 = MPV17L (Confidence: 1, TimeStep: 1)
#> GIMAP7_3_Activator: GIMAP7 = F13A1 (Confidence: 1, TimeStep: 1)
#> GIMAP7_4_Activator: GIMAP7 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> GIMAP7_5_Activator: GIMAP7 = FGL2 (Confidence: 1, TimeStep: 1)
#> GIMAP7_1_Inhibitor: GIMAP7 = DEPDC1B (Confidence: 1, TimeStep: 1)
#> GIMAP7_2_Inhibitor: GIMAP7 = PTTG1 (Confidence: 1, TimeStep: 1)
#> GIMAP7_3_Inhibitor: GIMAP7 = AURKB (Confidence: 1, TimeStep: 1)
#> GIMAP7_4_Inhibitor: GIMAP7 = KIF18A (Confidence: 1, TimeStep: 1)
#> GIMAP7_5_Inhibitor: GIMAP7 = OIP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GINS1 with decay value = 1:
#> GINS1_1_Activator: GINS1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> GINS1_2_Activator: GINS1 = ASF1B (Confidence: 1, TimeStep: 1)
#> GINS1_3_Activator: GINS1 = AURKA (Confidence: 1, TimeStep: 1)
#> GINS1_4_Activator: GINS1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> GINS1_5_Activator: GINS1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> GINS1_1_Inhibitor: GINS1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> GINS1_2_Inhibitor: GINS1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> GINS1_3_Inhibitor: GINS1 = !AURKA (Confidence: 1, TimeStep: 1)
#> GINS1_4_Inhibitor: GINS1 = BTG1 (Confidence: 1, TimeStep: 1)
#> GINS1_5_Inhibitor: GINS1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GINS2 with decay value = 1:
#> GINS2_1_Activator: GINS2 = ANLN (Confidence: 1, TimeStep: 1)
#> GINS2_2_Activator: GINS2 = BRIP1 (Confidence: 1, TimeStep: 1)
#> GINS2_3_Activator: GINS2 = CHEK1 (Confidence: 1, TimeStep: 1)
#> GINS2_4_Activator: GINS2 = FANCI (Confidence: 1, TimeStep: 1)
#> GINS2_5_Activator: GINS2 = TTK (Confidence: 1, TimeStep: 1)
#> GINS2_1_Inhibitor: GINS2 = !RAD51 (Confidence: 1, TimeStep: 1)
#> GINS2_2_Inhibitor: GINS2 = !PCNA (Confidence: 1, TimeStep: 1)
#> GINS2_3_Inhibitor: GINS2 = !ZNF367 (Confidence: 1, TimeStep: 1)
#> GINS2_4_Inhibitor: GINS2 = !BRCA1 (Confidence: 1, TimeStep: 1)
#> GINS2_5_Inhibitor: GINS2 = !GINS2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GSN with decay value = 1:
#> GSN_1_Activator: GSN = SERPINB9 (Confidence: 1, TimeStep: 1)
#> GSN_2_Activator: GSN = ITGAM (Confidence: 1, TimeStep: 1)
#> GSN_3_Activator: GSN = TBXA2R (Confidence: 1, TimeStep: 1)
#> GSN_4_Activator: GSN = CCR1 (Confidence: 1, TimeStep: 1)
#> GSN_5_Activator: GSN = RBMS3 (Confidence: 1, TimeStep: 1)
#> GSN_1_Inhibitor: GSN = !METTL7A (Confidence: 1, TimeStep: 1)
#> GSN_2_Inhibitor: GSN = UBE2C (Confidence: 1, TimeStep: 1)
#> GSN_3_Inhibitor: GSN = !AKAP12&!LILRB2 (Confidence: 1, TimeStep: 1)
#> GSN_4_Inhibitor: GSN = !AKAP12&!IL6ST (Confidence: 1, TimeStep: 1)
#> GSN_5_Inhibitor: GSN = !AKAP12&!KLF9 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for GVINP1 with decay value = 1:
#> GVINP1_1_Activator: GVINP1 = PPBP (Confidence: 1, TimeStep: 1)
#> GVINP1_2_Activator: GVINP1 = FGL2 (Confidence: 1, TimeStep: 1)
#> GVINP1_3_Activator: GVINP1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> GVINP1_4_Activator: GVINP1 = !BRCA1&SERPINA1 (Confidence: 1, TimeStep: 1)
#> GVINP1_5_Activator: GVINP1 = !BYSL&MS4A7 (Confidence: 1, TimeStep: 1)
#> GVINP1_1_Inhibitor: GVINP1 = MCM7 (Confidence: 1, TimeStep: 1)
#> GVINP1_2_Inhibitor: GVINP1 = KIF11 (Confidence: 1, TimeStep: 1)
#> GVINP1_3_Inhibitor: GVINP1 = KNL1 (Confidence: 1, TimeStep: 1)
#> GVINP1_4_Inhibitor: GVINP1 = DHFR (Confidence: 1, TimeStep: 1)
#> GVINP1_5_Inhibitor: GVINP1 = MTHFD2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HBB with decay value = 1:
#> HBB_1_Activator: HBB = LGALS3 (Confidence: 1, TimeStep: 1)
#> HBB_2_Activator: HBB = LOC100130872 (Confidence: 1, TimeStep: 1)
#> HBB_3_Activator: HBB = !CENPF&DEFA1 (Confidence: 1, TimeStep: 1)
#> HBB_4_Activator: HBB = !CKS1B&!PSPH (Confidence: 1, TimeStep: 1)
#> HBB_5_Activator: HBB = HBB&IGH (Confidence: 1, TimeStep: 1)
#> HBB_1_Inhibitor: HBB = SHCBP1 (Confidence: 1, TimeStep: 1)
#> HBB_2_Inhibitor: HBB = CCNB1 (Confidence: 1, TimeStep: 1)
#> HBB_3_Inhibitor: HBB = CENPF (Confidence: 1, TimeStep: 1)
#> HBB_4_Inhibitor: HBB = NEK2 (Confidence: 1, TimeStep: 1)
#> HBB_5_Inhibitor: HBB = CDK1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HBG1 with decay value = 1:
#> HBG1_1_Activator: HBG1 = LGALS3 (Confidence: 1, TimeStep: 1)
#> HBG1_2_Activator: HBG1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> HBG1_3_Activator: HBG1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> HBG1_4_Activator: HBG1 = !CENPF&DEFA1 (Confidence: 1, TimeStep: 1)
#> HBG1_5_Activator: HBG1 = HBB&IGH (Confidence: 1, TimeStep: 1)
#> HBG1_1_Inhibitor: HBG1 = !S100A8 (Confidence: 1, TimeStep: 1)
#> HBG1_2_Inhibitor: HBG1 = RFC3 (Confidence: 1, TimeStep: 1)
#> HBG1_3_Inhibitor: HBG1 = SHCBP1 (Confidence: 1, TimeStep: 1)
#> HBG1_4_Inhibitor: HBG1 = FH (Confidence: 1, TimeStep: 1)
#> HBG1_5_Inhibitor: HBG1 = CCNB1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HELLS with decay value = 1:
#> HELLS_1_Activator: HELLS = KIF2C (Confidence: 1, TimeStep: 1)
#> HELLS_2_Activator: HELLS = ATAD2 (Confidence: 1, TimeStep: 1)
#> HELLS_3_Activator: HELLS = BIRC5 (Confidence: 1, TimeStep: 1)
#> HELLS_4_Activator: HELLS = BUB1 (Confidence: 1, TimeStep: 1)
#> HELLS_5_Activator: HELLS = CCNA2 (Confidence: 1, TimeStep: 1)
#> HELLS_1_Inhibitor: HELLS = !KIF2C (Confidence: 1, TimeStep: 1)
#> HELLS_2_Inhibitor: HELLS = !CCNB2 (Confidence: 1, TimeStep: 1)
#> HELLS_3_Inhibitor: HELLS = !CDC45 (Confidence: 1, TimeStep: 1)
#> HELLS_4_Inhibitor: HELLS = !CENPA (Confidence: 1, TimeStep: 1)
#> HELLS_5_Inhibitor: HELLS = !DLGAP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HIST4H4 with decay value = 1:
#> HIST4H4_1_Activator: HIST4H4 = !TXNIP (Confidence: 1, TimeStep: 1)
#> HIST4H4_2_Activator: HIST4H4 = AURKB (Confidence: 1, TimeStep: 1)
#> HIST4H4_3_Activator: HIST4H4 = CKAP2 (Confidence: 1, TimeStep: 1)
#> HIST4H4_4_Activator: HIST4H4 = KIF18A (Confidence: 1, TimeStep: 1)
#> HIST4H4_5_Activator: HIST4H4 = OIP5 (Confidence: 1, TimeStep: 1)
#> HIST4H4_1_Inhibitor: HIST4H4 = EMP1 (Confidence: 1, TimeStep: 1)
#> HIST4H4_2_Inhibitor: HIST4H4 = !TNFRSF21 (Confidence: 1, TimeStep: 1)
#> HIST4H4_3_Inhibitor: HIST4H4 = !C5orf24 (Confidence: 1, TimeStep: 1)
#> HIST4H4_4_Inhibitor: HIST4H4 = !BCL2L11&CDK6 (Confidence: 1, TimeStep: 1)
#> HIST4H4_5_Inhibitor: HIST4H4 = B3GNT2&!CENPU (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HJURP with decay value = 1:
#> HJURP_1_Activator: HJURP = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> HJURP_2_Activator: HJURP = ASF1B (Confidence: 1, TimeStep: 1)
#> HJURP_3_Activator: HJURP = AURKA (Confidence: 1, TimeStep: 1)
#> HJURP_4_Activator: HJURP = !BTG1 (Confidence: 1, TimeStep: 1)
#> HJURP_5_Activator: HJURP = CCDC34 (Confidence: 1, TimeStep: 1)
#> HJURP_1_Inhibitor: HJURP = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> HJURP_2_Inhibitor: HJURP = !ASF1B (Confidence: 1, TimeStep: 1)
#> HJURP_3_Inhibitor: HJURP = !AURKA (Confidence: 1, TimeStep: 1)
#> HJURP_4_Inhibitor: HJURP = BTG1 (Confidence: 1, TimeStep: 1)
#> HJURP_5_Inhibitor: HJURP = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HMMR with decay value = 1:
#> HMMR_1_Activator: HMMR = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> HMMR_2_Activator: HMMR = ASF1B (Confidence: 1, TimeStep: 1)
#> HMMR_3_Activator: HMMR = AURKA (Confidence: 1, TimeStep: 1)
#> HMMR_4_Activator: HMMR = !BTG1 (Confidence: 1, TimeStep: 1)
#> HMMR_5_Activator: HMMR = CCDC34 (Confidence: 1, TimeStep: 1)
#> HMMR_1_Inhibitor: HMMR = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> HMMR_2_Inhibitor: HMMR = !ASF1B (Confidence: 1, TimeStep: 1)
#> HMMR_3_Inhibitor: HMMR = !AURKA (Confidence: 1, TimeStep: 1)
#> HMMR_4_Inhibitor: HMMR = BTG1 (Confidence: 1, TimeStep: 1)
#> HMMR_5_Inhibitor: HMMR = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HRK with decay value = 1:
#> HRK_1_Activator: HRK = DPEP1&HRK (Confidence: 1, TimeStep: 1)
#> HRK_2_Activator: HRK = DENND3&HRK (Confidence: 1, TimeStep: 1)
#> HRK_3_Activator: HRK = !ARRDC3&HRK (Confidence: 1, TimeStep: 1)
#> HRK_4_Activator: HRK = DPEP1&!RHOBTB3 (Confidence: 1, TimeStep: 1)
#> HRK_5_Activator: HRK = IL1B&!RHOBTB3 (Confidence: 1, TimeStep: 1)
#> HRK_1_Inhibitor: HRK = !DPEP1 (Confidence: 1, TimeStep: 1)
#> HRK_2_Inhibitor: HRK = !MSH6 (Confidence: 1, TimeStep: 1)
#> HRK_3_Inhibitor: HRK = !ISG20 (Confidence: 1, TimeStep: 1)
#> HRK_4_Inhibitor: HRK = !SMAP2 (Confidence: 1, TimeStep: 1)
#> HRK_5_Inhibitor: HRK = ECT2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for HSP90AB1 with decay value = 1:
#> HSP90AB1_1_Activator: HSP90AB1 = KIF11 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_2_Activator: HSP90AB1 = KNL1 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_3_Activator: HSP90AB1 = DHFR (Confidence: 1, TimeStep: 1)
#> HSP90AB1_4_Activator: HSP90AB1 = RAD51 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_5_Activator: HSP90AB1 = !CD53 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_1_Inhibitor: HSP90AB1 = ASPM&!CRNDE (Confidence: 1, TimeStep: 1)
#> HSP90AB1_2_Inhibitor: HSP90AB1 = ASPM&LGALS3 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_3_Inhibitor: HSP90AB1 = ASPM&!TYMS (Confidence: 1, TimeStep: 1)
#> HSP90AB1_4_Inhibitor: HSP90AB1 = !ANLN&FABP5&!HSP90AB1 (Confidence: 1, TimeStep: 1)
#> HSP90AB1_5_Inhibitor: HSP90AB1 = !ANLN&HSP90AB1&LGALS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ID2 with decay value = 1:
#> ID2_1_Activator: ID2 = PRDM1 (Confidence: 1, TimeStep: 1)
#> ID2_2_Activator: ID2 = CENPV&ID2 (Confidence: 1, TimeStep: 1)
#> ID2_1_Inhibitor: ID2 = !CCNB2&ECT2 (Confidence: 1, TimeStep: 1)
#> ID2_2_Inhibitor: ID2 = !CCNB2&!METTL7A (Confidence: 1, TimeStep: 1)
#> ID2_3_Inhibitor: ID2 = !CDC45&ECT2 (Confidence: 1, TimeStep: 1)
#> ID2_4_Inhibitor: ID2 = !CDC45&!METTL7A (Confidence: 1, TimeStep: 1)
#> ID2_5_Inhibitor: ID2 = !CENPA&ECT2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ID3 with decay value = 1:
#> ID3_1_Activator: ID3 = HRK (Confidence: 1, TimeStep: 1)
#> ID3_2_Activator: ID3 = EMP1 (Confidence: 1, TimeStep: 1)
#> ID3_3_Activator: ID3 = MDK (Confidence: 1, TimeStep: 1)
#> ID3_4_Activator: ID3 = MDM2 (Confidence: 1, TimeStep: 1)
#> ID3_5_Activator: ID3 = ABHD17B&PTP4A1 (Confidence: 1, TimeStep: 1)
#> ID3_1_Inhibitor: ID3 = SEMA4D (Confidence: 1, TimeStep: 1)
#> ID3_2_Inhibitor: ID3 = !B3GNT2&FGR (Confidence: 1, TimeStep: 1)
#> ID3_3_Inhibitor: ID3 = !DTL&!IL1B (Confidence: 1, TimeStep: 1)
#> ID3_4_Inhibitor: ID3 = !AKAP12&!TYMS (Confidence: 1, TimeStep: 1)
#> ID3_5_Inhibitor: ID3 = !DHX9&!IL1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IFNGR1 with decay value = 1:
#> IFNGR1_1_Activator: IFNGR1 = LILRB2 (Confidence: 1, TimeStep: 1)
#> IFNGR1_2_Activator: IFNGR1 = !CENPV (Confidence: 1, TimeStep: 1)
#> IFNGR1_3_Activator: IFNGR1 = IRAK3 (Confidence: 1, TimeStep: 1)
#> IFNGR1_4_Activator: IFNGR1 = DENND3 (Confidence: 1, TimeStep: 1)
#> IFNGR1_5_Activator: IFNGR1 = IFNGR1 (Confidence: 1, TimeStep: 1)
#> IFNGR1_1_Inhibitor: IFNGR1 = ECT2 (Confidence: 1, TimeStep: 1)
#> IFNGR1_2_Inhibitor: IFNGR1 = FOXM1 (Confidence: 1, TimeStep: 1)
#> IFNGR1_3_Inhibitor: IFNGR1 = STIL (Confidence: 1, TimeStep: 1)
#> IFNGR1_4_Inhibitor: IFNGR1 = ATAD2 (Confidence: 1, TimeStep: 1)
#> IFNGR1_5_Inhibitor: IFNGR1 = BIRC5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IGH with decay value = 1:
#> IGH_1_Activator: IGH = LGALS3 (Confidence: 1, TimeStep: 1)
#> IGH_2_Activator: IGH = !CCDC86&IGH (Confidence: 1, TimeStep: 1)
#> IGH_3_Activator: IGH = IGH&PDE4B (Confidence: 1, TimeStep: 1)
#> IGH_4_Activator: IGH = !CCDC86&!PRPS2 (Confidence: 1, TimeStep: 1)
#> IGH_5_Activator: IGH = GBP4&IGLC1 (Confidence: 1, TimeStep: 1)
#> IGH_1_Inhibitor: IGH = MTHFD2 (Confidence: 1, TimeStep: 1)
#> IGH_2_Inhibitor: IGH = !NEAT1 (Confidence: 1, TimeStep: 1)
#> IGH_3_Inhibitor: IGH = !MS4A1 (Confidence: 1, TimeStep: 1)
#> IGH_4_Inhibitor: IGH = !TXNIP (Confidence: 1, TimeStep: 1)
#> IGH_5_Inhibitor: IGH = CKAP2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IGLC1 with decay value = 1:
#> IGLC1_1_Activator: IGLC1 = LGALS3 (Confidence: 1, TimeStep: 1)
#> IGLC1_2_Activator: IGLC1 = !CCDC86&IGH (Confidence: 1, TimeStep: 1)
#> IGLC1_3_Activator: IGLC1 = !CCDC86&IGLC1 (Confidence: 1, TimeStep: 1)
#> IGLC1_4_Activator: IGLC1 = IGH&PDE4B (Confidence: 1, TimeStep: 1)
#> IGLC1_5_Activator: IGLC1 = !CCDC86&!PRPS2 (Confidence: 1, TimeStep: 1)
#> IGLC1_1_Inhibitor: IGLC1 = !MS4A1 (Confidence: 1, TimeStep: 1)
#> IGLC1_2_Inhibitor: IGLC1 = !TXNIP (Confidence: 1, TimeStep: 1)
#> IGLC1_3_Inhibitor: IGLC1 = CKAP2 (Confidence: 1, TimeStep: 1)
#> IGLC1_4_Inhibitor: IGLC1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> IGLC1_5_Inhibitor: IGLC1 = ASF1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IGLL1 with decay value = 1:
#> IGLL1_1_Activator: IGLL1 = IGLL1 (Confidence: 1, TimeStep: 1)
#> IGLL1_2_Activator: IGLL1 = AKAP12 (Confidence: 1, TimeStep: 1)
#> IGLL1_3_Activator: IGLL1 = !IL27RA (Confidence: 1, TimeStep: 1)
#> IGLL1_4_Activator: IGLL1 = BCAT1 (Confidence: 1, TimeStep: 1)
#> IGLL1_5_Activator: IGLL1 = !SLA (Confidence: 1, TimeStep: 1)
#> IGLL1_1_Inhibitor: IGLL1 = !IGLL1 (Confidence: 1, TimeStep: 1)
#> IGLL1_2_Inhibitor: IGLL1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> IGLL1_3_Inhibitor: IGLL1 = !BCAT1&!BMF (Confidence: 1, TimeStep: 1)
#> IGLL1_4_Inhibitor: IGLL1 = !AKAP12&!C5orf24 (Confidence: 1, TimeStep: 1)
#> IGLL1_5_Inhibitor: IGLL1 = !AKAP12&PPP1R16B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IL18R1 with decay value = 1:
#> IL18R1_1_Activator: IL18R1 = IL18R1 (Confidence: 1, TimeStep: 1)
#> IL18R1_2_Activator: IL18R1 = IL18RAP (Confidence: 1, TimeStep: 1)
#> IL18R1_3_Activator: IL18R1 = RAB31 (Confidence: 1, TimeStep: 1)
#> IL18R1_4_Activator: IL18R1 = ID2&PPP1R16B (Confidence: 1, TimeStep: 1)
#> IL18R1_5_Activator: IL18R1 = ID2&!PRPS2 (Confidence: 1, TimeStep: 1)
#> IL18R1_1_Inhibitor: IL18R1 = CENPV (Confidence: 1, TimeStep: 1)
#> IL18R1_2_Inhibitor: IL18R1 = !IRAK3 (Confidence: 1, TimeStep: 1)
#> IL18R1_3_Inhibitor: IL18R1 = !TMEM2 (Confidence: 1, TimeStep: 1)
#> IL18R1_4_Inhibitor: IL18R1 = ANP32E (Confidence: 1, TimeStep: 1)
#> IL18R1_5_Inhibitor: IL18R1 = CEP55 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IL18RAP with decay value = 1:
#> IL18RAP_1_Activator: IL18RAP = IL18RAP (Confidence: 1, TimeStep: 1)
#> IL18RAP_2_Activator: IL18RAP = ID2&PPP1R16B (Confidence: 1, TimeStep: 1)
#> IL18RAP_3_Activator: IL18RAP = ID2&!PRPS2 (Confidence: 1, TimeStep: 1)
#> IL18RAP_4_Activator: IL18RAP = !DHX9&IL18R1 (Confidence: 1, TimeStep: 1)
#> IL18RAP_5_Activator: IL18RAP = !DHX9&!LEF1 (Confidence: 1, TimeStep: 1)
#> IL18RAP_1_Inhibitor: IL18RAP = CENPV (Confidence: 1, TimeStep: 1)
#> IL18RAP_2_Inhibitor: IL18RAP = !IRAK3 (Confidence: 1, TimeStep: 1)
#> IL18RAP_3_Inhibitor: IL18RAP = !TMEM2 (Confidence: 1, TimeStep: 1)
#> IL18RAP_4_Inhibitor: IL18RAP = ANP32E (Confidence: 1, TimeStep: 1)
#> IL18RAP_5_Inhibitor: IL18RAP = CEP55 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IL1B with decay value = 1:
#> IL1B_1_Activator: IL1B = GBP4&!HBG1 (Confidence: 1, TimeStep: 1)
#> IL1B_2_Activator: IL1B = DENND3&!SLA (Confidence: 1, TimeStep: 1)
#> IL1B_3_Activator: IL1B = EMP1&GBP4 (Confidence: 1, TimeStep: 1)
#> IL1B_4_Activator: IL1B = EMP1&!SQLE (Confidence: 1, TimeStep: 1)
#> IL1B_5_Activator: IL1B = !HBG1&!KNL1 (Confidence: 1, TimeStep: 1)
#> IL1B_1_Inhibitor: IL1B = !IL1B (Confidence: 1, TimeStep: 1)
#> IL1B_2_Inhibitor: IL1B = !DENND3 (Confidence: 1, TimeStep: 1)
#> IL1B_3_Inhibitor: IL1B = !GBP4 (Confidence: 1, TimeStep: 1)
#> IL1B_4_Inhibitor: IL1B = TNFSF8 (Confidence: 1, TimeStep: 1)
#> IL1B_5_Inhibitor: IL1B = ECT2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IL27RA with decay value = 1:
#> IL27RA_1_Activator: IL27RA = IL27RA (Confidence: 1, TimeStep: 1)
#> IL27RA_2_Activator: IL27RA = !IGLL1 (Confidence: 1, TimeStep: 1)
#> IL27RA_3_Activator: IL27RA = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> IL27RA_4_Activator: IL27RA = GIMAP7&SLA (Confidence: 1, TimeStep: 1)
#> IL27RA_5_Activator: IL27RA = NEAT1&!SIK1 (Confidence: 1, TimeStep: 1)
#> IL27RA_1_Inhibitor: IL27RA = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> IL27RA_2_Inhibitor: IL27RA = !IL27RA&RHOBTB3 (Confidence: 1, TimeStep: 1)
#> IL27RA_3_Inhibitor: IL27RA = CCDC86&!IL27RA (Confidence: 1, TimeStep: 1)
#> IL27RA_4_Inhibitor: IL27RA = !CDK6&!IL27RA (Confidence: 1, TimeStep: 1)
#> IL27RA_5_Inhibitor: IL27RA = !GIMAP4&!IL27RA (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IL6ST with decay value = 1:
#> IL6ST_1_Activator: IL6ST = MTSS1 (Confidence: 1, TimeStep: 1)
#> IL6ST_2_Activator: IL6ST = ITGAM (Confidence: 1, TimeStep: 1)
#> IL6ST_3_Activator: IL6ST = TBXA2R (Confidence: 1, TimeStep: 1)
#> IL6ST_4_Activator: IL6ST = FGD2 (Confidence: 1, TimeStep: 1)
#> IL6ST_5_Activator: IL6ST = CCR1 (Confidence: 1, TimeStep: 1)
#> IL6ST_1_Inhibitor: IL6ST = BCL10 (Confidence: 1, TimeStep: 1)
#> IL6ST_2_Inhibitor: IL6ST = !ATAD2&!MS4A1 (Confidence: 1, TimeStep: 1)
#> IL6ST_3_Inhibitor: IL6ST = !ATAD2&!SMAP2 (Confidence: 1, TimeStep: 1)
#> IL6ST_4_Inhibitor: IL6ST = !ATAD2&ECT2 (Confidence: 1, TimeStep: 1)
#> IL6ST_5_Inhibitor: IL6ST = !ATAD2&!METTL7A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IQGAP3 with decay value = 1:
#> IQGAP3_1_Activator: IQGAP3 = CENPH (Confidence: 1, TimeStep: 1)
#> IQGAP3_2_Activator: IQGAP3 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> IQGAP3_3_Activator: IQGAP3 = ASF1B (Confidence: 1, TimeStep: 1)
#> IQGAP3_4_Activator: IQGAP3 = AURKA (Confidence: 1, TimeStep: 1)
#> IQGAP3_5_Activator: IQGAP3 = !BTG1 (Confidence: 1, TimeStep: 1)
#> IQGAP3_1_Inhibitor: IQGAP3 = !CENPH (Confidence: 1, TimeStep: 1)
#> IQGAP3_2_Inhibitor: IQGAP3 = !CDK1 (Confidence: 1, TimeStep: 1)
#> IQGAP3_3_Inhibitor: IQGAP3 = !HMMR (Confidence: 1, TimeStep: 1)
#> IQGAP3_4_Inhibitor: IQGAP3 = !KIF14 (Confidence: 1, TimeStep: 1)
#> IQGAP3_5_Inhibitor: IQGAP3 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for IRAK3 with decay value = 1:
#> IRAK3_1_Activator: IRAK3 = IRAK3 (Confidence: 1, TimeStep: 1)
#> IRAK3_2_Activator: IRAK3 = MTSS1 (Confidence: 1, TimeStep: 1)
#> IRAK3_3_Activator: IRAK3 = PDE4B (Confidence: 1, TimeStep: 1)
#> IRAK3_4_Activator: IRAK3 = SERPINB9 (Confidence: 1, TimeStep: 1)
#> IRAK3_5_Activator: IRAK3 = !CRNDE (Confidence: 1, TimeStep: 1)
#> IRAK3_1_Inhibitor: IRAK3 = !TMEM2 (Confidence: 1, TimeStep: 1)
#> IRAK3_2_Inhibitor: IRAK3 = ECT2 (Confidence: 1, TimeStep: 1)
#> IRAK3_3_Inhibitor: IRAK3 = FOXM1 (Confidence: 1, TimeStep: 1)
#> IRAK3_4_Inhibitor: IRAK3 = STIL (Confidence: 1, TimeStep: 1)
#> IRAK3_5_Inhibitor: IRAK3 = ATAD2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ISG20 with decay value = 1:
#> ISG20_1_Activator: ISG20 = !ECT2 (Confidence: 1, TimeStep: 1)
#> ISG20_2_Activator: ISG20 = SMAP2 (Confidence: 1, TimeStep: 1)
#> ISG20_3_Activator: ISG20 = !CENPK (Confidence: 1, TimeStep: 1)
#> ISG20_4_Activator: ISG20 = ISG20 (Confidence: 1, TimeStep: 1)
#> ISG20_5_Activator: ISG20 = GBP4 (Confidence: 1, TimeStep: 1)
#> ISG20_1_Inhibitor: ISG20 = !APITD1-CORT&ATAD2 (Confidence: 1, TimeStep: 1)
#> ISG20_2_Inhibitor: ISG20 = !APITD1-CORT&BIRC5 (Confidence: 1, TimeStep: 1)
#> ISG20_3_Inhibitor: ISG20 = !APITD1-CORT&BUB1 (Confidence: 1, TimeStep: 1)
#> ISG20_4_Inhibitor: ISG20 = !APITD1-CORT&CCNA2 (Confidence: 1, TimeStep: 1)
#> ISG20_5_Inhibitor: ISG20 = !APITD1-CORT&CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ITGAM with decay value = 1:
#> ITGAM_1_Activator: ITGAM = ITGAM (Confidence: 1, TimeStep: 1)
#> ITGAM_2_Activator: ITGAM = F13A1 (Confidence: 1, TimeStep: 1)
#> ITGAM_3_Activator: ITGAM = RAB31 (Confidence: 1, TimeStep: 1)
#> ITGAM_4_Activator: ITGAM = BMF&LOC285097 (Confidence: 1, TimeStep: 1)
#> ITGAM_5_Activator: ITGAM = !CCNL1&!PAICS (Confidence: 1, TimeStep: 1)
#> ITGAM_1_Inhibitor: ITGAM = !SERPINB9 (Confidence: 1, TimeStep: 1)
#> ITGAM_2_Inhibitor: ITGAM = CENPV (Confidence: 1, TimeStep: 1)
#> ITGAM_3_Inhibitor: ITGAM = !IRAK3 (Confidence: 1, TimeStep: 1)
#> ITGAM_4_Inhibitor: ITGAM = !LILRB2 (Confidence: 1, TimeStep: 1)
#> ITGAM_5_Inhibitor: ITGAM = !RNASET2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ITGB2-AS1 with decay value = 1:
#> ITGB2-AS1_1_Activator: ITGB2-AS1 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_2_Activator: ITGB2-AS1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_3_Activator: ITGB2-AS1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_4_Activator: ITGB2-AS1 = !AKAP12&HBB (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_5_Activator: ITGB2-AS1 = !AKAP12&FGR (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_1_Inhibitor: ITGB2-AS1 = !HBB (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_2_Inhibitor: ITGB2-AS1 = MSH6 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_3_Inhibitor: ITGB2-AS1 = AKAP12 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_4_Inhibitor: ITGB2-AS1 = WFS1 (Confidence: 1, TimeStep: 1)
#> ITGB2-AS1_5_Inhibitor: ITGB2-AS1 = !SLA (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ITPKB with decay value = 1:
#> ITPKB_1_Activator: ITPKB = LILRA1 (Confidence: 1, TimeStep: 1)
#> ITPKB_2_Activator: ITPKB = CELF2&IGLC1 (Confidence: 1, TimeStep: 1)
#> ITPKB_3_Activator: ITPKB = CELF2&IGH (Confidence: 1, TimeStep: 1)
#> ITPKB_4_Activator: ITPKB = IGLC1&SLA (Confidence: 1, TimeStep: 1)
#> ITPKB_5_Activator: ITPKB = ITPKB&MS4A7 (Confidence: 1, TimeStep: 1)
#> ITPKB_1_Inhibitor: ITPKB = CDK1 (Confidence: 1, TimeStep: 1)
#> ITPKB_2_Inhibitor: ITPKB = CKAP2L (Confidence: 1, TimeStep: 1)
#> ITPKB_3_Inhibitor: ITPKB = HMMR (Confidence: 1, TimeStep: 1)
#> ITPKB_4_Inhibitor: ITPKB = KIF14 (Confidence: 1, TimeStep: 1)
#> ITPKB_5_Inhibitor: ITPKB = KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KCNK12 with decay value = 1:
#> KCNK12_1_Activator: KCNK12 = !EGR1&MYRIP (Confidence: 1, TimeStep: 1)
#> KCNK12_2_Activator: KCNK12 = !EGR1&MDM2 (Confidence: 1, TimeStep: 1)
#> KCNK12_3_Activator: KCNK12 = FKBP5&!SLA (Confidence: 1, TimeStep: 1)
#> KCNK12_4_Activator: KCNK12 = AKAP12&LOC728175 (Confidence: 1, TimeStep: 1)
#> KCNK12_5_Activator: KCNK12 = !EGR1&LOC728175 (Confidence: 1, TimeStep: 1)
#> KCNK12_1_Inhibitor: KCNK12 = !FKBP5&!KCNK12 (Confidence: 1, TimeStep: 1)
#> KCNK12_2_Inhibitor: KCNK12 = !FKBP5&!MDM2 (Confidence: 1, TimeStep: 1)
#> KCNK12_3_Inhibitor: KCNK12 = !KCNK12 (Confidence: 1, TimeStep: 2)
#> KCNK12_4_Inhibitor: KCNK12 = !STAB1 (Confidence: 1, TimeStep: 2)
#> KCNK12_5_Inhibitor: KCNK12 = !TUBA4A (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for KIAA0101 with decay value = 1:
#> KIAA0101_1_Activator: KIAA0101 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIAA0101_2_Activator: KIAA0101 = ASF1B (Confidence: 1, TimeStep: 1)
#> KIAA0101_3_Activator: KIAA0101 = AURKA (Confidence: 1, TimeStep: 1)
#> KIAA0101_4_Activator: KIAA0101 = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIAA0101_5_Activator: KIAA0101 = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIAA0101_1_Inhibitor: KIAA0101 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIAA0101_2_Inhibitor: KIAA0101 = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIAA0101_3_Inhibitor: KIAA0101 = !AURKA (Confidence: 1, TimeStep: 1)
#> KIAA0101_4_Inhibitor: KIAA0101 = BTG1 (Confidence: 1, TimeStep: 1)
#> KIAA0101_5_Inhibitor: KIAA0101 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF11 with decay value = 1:
#> KIF11_1_Activator: KIF11 = CENPH (Confidence: 1, TimeStep: 1)
#> KIF11_2_Activator: KIF11 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF11_3_Activator: KIF11 = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF11_4_Activator: KIF11 = AURKA (Confidence: 1, TimeStep: 1)
#> KIF11_5_Activator: KIF11 = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF11_1_Inhibitor: KIF11 = !CENPF (Confidence: 1, TimeStep: 1)
#> KIF11_2_Inhibitor: KIF11 = !NEK2 (Confidence: 1, TimeStep: 1)
#> KIF11_3_Inhibitor: KIF11 = !FH (Confidence: 1, TimeStep: 1)
#> KIF11_4_Inhibitor: KIF11 = !C4orf46 (Confidence: 1, TimeStep: 1)
#> KIF11_5_Inhibitor: KIF11 = !HELLS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF14 with decay value = 1:
#> KIF14_1_Activator: KIF14 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF14_2_Activator: KIF14 = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF14_3_Activator: KIF14 = AURKA (Confidence: 1, TimeStep: 1)
#> KIF14_4_Activator: KIF14 = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF14_5_Activator: KIF14 = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF14_1_Inhibitor: KIF14 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF14_2_Inhibitor: KIF14 = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF14_3_Inhibitor: KIF14 = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF14_4_Inhibitor: KIF14 = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF14_5_Inhibitor: KIF14 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF15 with decay value = 1:
#> KIF15_1_Activator: KIF15 = CENPH (Confidence: 1, TimeStep: 1)
#> KIF15_2_Activator: KIF15 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF15_3_Activator: KIF15 = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF15_4_Activator: KIF15 = AURKA (Confidence: 1, TimeStep: 1)
#> KIF15_5_Activator: KIF15 = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF15_1_Inhibitor: KIF15 = !CENPH (Confidence: 1, TimeStep: 1)
#> KIF15_2_Inhibitor: KIF15 = !CDK1 (Confidence: 1, TimeStep: 1)
#> KIF15_3_Inhibitor: KIF15 = !HMMR (Confidence: 1, TimeStep: 1)
#> KIF15_4_Inhibitor: KIF15 = !KIF14 (Confidence: 1, TimeStep: 1)
#> KIF15_5_Inhibitor: KIF15 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF18A with decay value = 1:
#> KIF18A_1_Activator: KIF18A = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF18A_2_Activator: KIF18A = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF18A_3_Activator: KIF18A = AURKA (Confidence: 1, TimeStep: 1)
#> KIF18A_4_Activator: KIF18A = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF18A_5_Activator: KIF18A = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF18A_1_Inhibitor: KIF18A = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF18A_2_Inhibitor: KIF18A = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF18A_3_Inhibitor: KIF18A = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF18A_4_Inhibitor: KIF18A = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF18A_5_Inhibitor: KIF18A = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF18B with decay value = 1:
#> KIF18B_1_Activator: KIF18B = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF18B_2_Activator: KIF18B = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF18B_3_Activator: KIF18B = AURKA (Confidence: 1, TimeStep: 1)
#> KIF18B_4_Activator: KIF18B = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF18B_5_Activator: KIF18B = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF18B_1_Inhibitor: KIF18B = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF18B_2_Inhibitor: KIF18B = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF18B_3_Inhibitor: KIF18B = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF18B_4_Inhibitor: KIF18B = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF18B_5_Inhibitor: KIF18B = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF20A with decay value = 1:
#> KIF20A_1_Activator: KIF20A = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF20A_2_Activator: KIF20A = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF20A_3_Activator: KIF20A = AURKA (Confidence: 1, TimeStep: 1)
#> KIF20A_4_Activator: KIF20A = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF20A_5_Activator: KIF20A = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF20A_1_Inhibitor: KIF20A = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF20A_2_Inhibitor: KIF20A = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF20A_3_Inhibitor: KIF20A = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF20A_4_Inhibitor: KIF20A = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF20A_5_Inhibitor: KIF20A = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF23 with decay value = 1:
#> KIF23_1_Activator: KIF23 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF23_2_Activator: KIF23 = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF23_3_Activator: KIF23 = AURKA (Confidence: 1, TimeStep: 1)
#> KIF23_4_Activator: KIF23 = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF23_5_Activator: KIF23 = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF23_1_Inhibitor: KIF23 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF23_2_Inhibitor: KIF23 = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF23_3_Inhibitor: KIF23 = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF23_4_Inhibitor: KIF23 = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF23_5_Inhibitor: KIF23 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF26A with decay value = 1:
#> KIF26A_1_Activator: KIF26A = TENM4 (Confidence: 1, TimeStep: 1)
#> KIF26A_2_Activator: KIF26A = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> KIF26A_3_Activator: KIF26A = AKAP12&TRIB1 (Confidence: 1, TimeStep: 1)
#> KIF26A_4_Activator: KIF26A = FABP5&IRAK3 (Confidence: 1, TimeStep: 1)
#> KIF26A_5_Activator: KIF26A = DPEP1&TRIB1 (Confidence: 1, TimeStep: 1)
#> KIF26A_1_Inhibitor: KIF26A = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> KIF26A_2_Inhibitor: KIF26A = !RAG1 (Confidence: 1, TimeStep: 1)
#> KIF26A_3_Inhibitor: KIF26A = LOC100130872 (Confidence: 1, TimeStep: 1)
#> KIF26A_4_Inhibitor: KIF26A = !METTL7A (Confidence: 1, TimeStep: 1)
#> KIF26A_5_Inhibitor: KIF26A = SEMA4D (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF2C with decay value = 1:
#> KIF2C_1_Activator: KIF2C = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF2C_2_Activator: KIF2C = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF2C_3_Activator: KIF2C = AURKA (Confidence: 1, TimeStep: 1)
#> KIF2C_4_Activator: KIF2C = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF2C_5_Activator: KIF2C = CCDC34 (Confidence: 1, TimeStep: 1)
#> KIF2C_1_Inhibitor: KIF2C = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF2C_2_Inhibitor: KIF2C = !ASF1B (Confidence: 1, TimeStep: 1)
#> KIF2C_3_Inhibitor: KIF2C = !AURKA (Confidence: 1, TimeStep: 1)
#> KIF2C_4_Inhibitor: KIF2C = BTG1 (Confidence: 1, TimeStep: 1)
#> KIF2C_5_Inhibitor: KIF2C = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KIF4A with decay value = 1:
#> KIF4A_1_Activator: KIF4A = CENPH (Confidence: 1, TimeStep: 1)
#> KIF4A_2_Activator: KIF4A = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> KIF4A_3_Activator: KIF4A = ASF1B (Confidence: 1, TimeStep: 1)
#> KIF4A_4_Activator: KIF4A = AURKA (Confidence: 1, TimeStep: 1)
#> KIF4A_5_Activator: KIF4A = !BTG1 (Confidence: 1, TimeStep: 1)
#> KIF4A_1_Inhibitor: KIF4A = !CENPH (Confidence: 1, TimeStep: 1)
#> KIF4A_2_Inhibitor: KIF4A = !CDK1 (Confidence: 1, TimeStep: 1)
#> KIF4A_3_Inhibitor: KIF4A = !HMMR (Confidence: 1, TimeStep: 1)
#> KIF4A_4_Inhibitor: KIF4A = !KIF14 (Confidence: 1, TimeStep: 1)
#> KIF4A_5_Inhibitor: KIF4A = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KLF9 with decay value = 1:
#> KLF9_1_Activator: KLF9 = KLF9 (Confidence: 1, TimeStep: 1)
#> KLF9_2_Activator: KLF9 = LGALS3 (Confidence: 1, TimeStep: 1)
#> KLF9_3_Activator: KLF9 = RAB31 (Confidence: 1, TimeStep: 1)
#> KLF9_4_Activator: KLF9 = !GGH&RBMS3 (Confidence: 1, TimeStep: 1)
#> KLF9_5_Activator: KLF9 = !HELLS&RBMS3 (Confidence: 1, TimeStep: 1)
#> KLF9_1_Inhibitor: KLF9 = !METTL7A (Confidence: 1, TimeStep: 1)
#> KLF9_2_Inhibitor: KLF9 = BCL10 (Confidence: 1, TimeStep: 1)
#> KLF9_3_Inhibitor: KLF9 = UBE2C (Confidence: 1, TimeStep: 1)
#> KLF9_4_Inhibitor: KLF9 = !KLF9&!RBMS3 (Confidence: 1, TimeStep: 1)
#> KLF9_5_Inhibitor: KLF9 = !DDIT4&!KLF9 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for KNL1 with decay value = 1:
#> KNL1_1_Activator: KNL1 = CCNB2 (Confidence: 1, TimeStep: 1)
#> KNL1_2_Activator: KNL1 = CDC45 (Confidence: 1, TimeStep: 1)
#> KNL1_3_Activator: KNL1 = CENPA (Confidence: 1, TimeStep: 1)
#> KNL1_4_Activator: KNL1 = CENPF (Confidence: 1, TimeStep: 1)
#> KNL1_5_Activator: KNL1 = DLGAP5 (Confidence: 1, TimeStep: 1)
#> KNL1_1_Inhibitor: KNL1 = !KNL1 (Confidence: 1, TimeStep: 1)
#> KNL1_2_Inhibitor: KNL1 = !ZNF367 (Confidence: 1, TimeStep: 1)
#> KNL1_3_Inhibitor: KNL1 = !E2F8 (Confidence: 1, TimeStep: 1)
#> KNL1_4_Inhibitor: KNL1 = !GINS2 (Confidence: 1, TimeStep: 1)
#> KNL1_5_Inhibitor: KNL1 = !DTL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LEF1 with decay value = 1:
#> LEF1_1_Activator: LEF1 = !CD53 (Confidence: 1, TimeStep: 1)
#> LEF1_2_Activator: LEF1 = CDC20 (Confidence: 1, TimeStep: 1)
#> LEF1_3_Activator: LEF1 = CENPK (Confidence: 1, TimeStep: 1)
#> LEF1_4_Activator: LEF1 = ZWINT (Confidence: 1, TimeStep: 1)
#> LEF1_5_Activator: LEF1 = ANLN (Confidence: 1, TimeStep: 1)
#> LEF1_1_Inhibitor: LEF1 = !ANLN&!CDK6 (Confidence: 1, TimeStep: 1)
#> LEF1_2_Inhibitor: LEF1 = !ANLN&!LEF1 (Confidence: 1, TimeStep: 1)
#> LEF1_3_Inhibitor: LEF1 = !BRIP1&!CDK6 (Confidence: 1, TimeStep: 1)
#> LEF1_4_Inhibitor: LEF1 = !BRIP1&!LEF1 (Confidence: 1, TimeStep: 1)
#> LEF1_5_Inhibitor: LEF1 = !BUB1B&!CDK6 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LGALS3 with decay value = 1:
#> LGALS3_1_Activator: LGALS3 = LGALS3 (Confidence: 1, TimeStep: 1)
#> LGALS3_2_Activator: LGALS3 = CDC42EP3&PPP1R16B (Confidence: 1, TimeStep: 1)
#> LGALS3_3_Activator: LGALS3 = CDC42EP3&!PRPS2 (Confidence: 1, TimeStep: 1)
#> LGALS3_4_Activator: LGALS3 = !CRNDE&HBG1 (Confidence: 1, TimeStep: 1)
#> LGALS3_5_Activator: LGALS3 = HBB&!PRPS2 (Confidence: 1, TimeStep: 1)
#> LGALS3_1_Inhibitor: LGALS3 = !LGALS3 (Confidence: 1, TimeStep: 1)
#> LGALS3_2_Inhibitor: LGALS3 = !PPP1R16B (Confidence: 1, TimeStep: 1)
#> LGALS3_3_Inhibitor: LGALS3 = PRPS2 (Confidence: 1, TimeStep: 1)
#> LGALS3_4_Inhibitor: LGALS3 = !CDC42EP3 (Confidence: 1, TimeStep: 1)
#> LGALS3_5_Inhibitor: LGALS3 = !HBG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LILRA1 with decay value = 1:
#> LILRA1_1_Activator: LILRA1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> LILRA1_2_Activator: LILRA1 = FCER1G&KLF9 (Confidence: 1, TimeStep: 1)
#> LILRA1_3_Activator: LILRA1 = !ARPP21&FCER1G (Confidence: 1, TimeStep: 1)
#> LILRA1_4_Activator: LILRA1 = FCER1G&ZBTB16 (Confidence: 1, TimeStep: 1)
#> LILRA1_5_Activator: LILRA1 = FCGR3B&KLF9 (Confidence: 1, TimeStep: 1)
#> LILRA1_1_Inhibitor: LILRA1 = !KLF9 (Confidence: 1, TimeStep: 1)
#> LILRA1_2_Inhibitor: LILRA1 = ASPM (Confidence: 1, TimeStep: 1)
#> LILRA1_3_Inhibitor: LILRA1 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> LILRA1_4_Inhibitor: LILRA1 = !RNASET2 (Confidence: 1, TimeStep: 1)
#> LILRA1_5_Inhibitor: LILRA1 = KIF11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LILRB2 with decay value = 1:
#> LILRB2_1_Activator: LILRB2 = ITGAM (Confidence: 1, TimeStep: 1)
#> LILRB2_2_Activator: LILRB2 = TBXA2R (Confidence: 1, TimeStep: 1)
#> LILRB2_3_Activator: LILRB2 = MIR4683 (Confidence: 1, TimeStep: 1)
#> LILRB2_4_Activator: LILRB2 = CCR1 (Confidence: 1, TimeStep: 1)
#> LILRB2_5_Activator: LILRB2 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> LILRB2_1_Inhibitor: LILRB2 = ECT2 (Confidence: 1, TimeStep: 1)
#> LILRB2_2_Inhibitor: LILRB2 = FOXM1 (Confidence: 1, TimeStep: 1)
#> LILRB2_3_Inhibitor: LILRB2 = STIL (Confidence: 1, TimeStep: 1)
#> LILRB2_4_Inhibitor: LILRB2 = ATAD2 (Confidence: 1, TimeStep: 1)
#> LILRB2_5_Inhibitor: LILRB2 = BIRC5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LOC100130872 with decay value = 1:
#> LOC100130872_1_Activator: LOC100130872 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> LOC100130872_2_Activator: LOC100130872 = !BCAT1&!MSH6 (Confidence: 1, TimeStep: 1)
#> LOC100130872_3_Activator: LOC100130872 = !C5orf24&FGR (Confidence: 1, TimeStep: 1)
#> LOC100130872_4_Activator: LOC100130872 = !C5orf24&!HRK (Confidence: 1, TimeStep: 1)
#> LOC100130872_5_Activator: LOC100130872 = !C5orf24&PPP1R16B (Confidence: 1, TimeStep: 1)
#> LOC100130872_1_Inhibitor: LOC100130872 = !HBG1 (Confidence: 1, TimeStep: 1)
#> LOC100130872_2_Inhibitor: LOC100130872 = !HBB (Confidence: 1, TimeStep: 1)
#> LOC100130872_3_Inhibitor: LOC100130872 = !SLA (Confidence: 1, TimeStep: 1)
#> LOC100130872_4_Inhibitor: LOC100130872 = HRK (Confidence: 1, TimeStep: 1)
#> LOC100130872_5_Inhibitor: LOC100130872 = !S100A8 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LOC100505650 with decay value = 1:
#> LOC100505650_1_Activator: LOC100505650 = LOC100505650 (Confidence: 1, TimeStep: 1)
#> LOC100505650_2_Activator: LOC100505650 = DEFA1&!ID2 (Confidence: 1, TimeStep: 1)
#> LOC100505650_3_Activator: LOC100505650 = !C5orf24&ECT2 (Confidence: 1, TimeStep: 1)
#> LOC100505650_4_Activator: LOC100505650 = !C5orf24&!ID2 (Confidence: 1, TimeStep: 1)
#> LOC100505650_5_Activator: LOC100505650 = !C5orf24&!METTL7A (Confidence: 1, TimeStep: 1)
#> LOC100505650_1_Inhibitor: LOC100505650 = DENND3 (Confidence: 1, TimeStep: 1)
#> LOC100505650_2_Inhibitor: LOC100505650 = TARSL2 (Confidence: 1, TimeStep: 1)
#> LOC100505650_3_Inhibitor: LOC100505650 = P2RY14 (Confidence: 1, TimeStep: 1)
#> LOC100505650_4_Inhibitor: LOC100505650 = SCML4 (Confidence: 1, TimeStep: 1)
#> LOC100505650_5_Inhibitor: LOC100505650 = MS4A4A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LOC100996643 with decay value = 1:
#> LOC100996643_1_Activator: LOC100996643 = !TXNIP (Confidence: 1, TimeStep: 1)
#> LOC100996643_2_Activator: LOC100996643 = CENPH (Confidence: 1, TimeStep: 1)
#> LOC100996643_3_Activator: LOC100996643 = CKAP2 (Confidence: 1, TimeStep: 1)
#> LOC100996643_4_Activator: LOC100996643 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> LOC100996643_5_Activator: LOC100996643 = ASF1B (Confidence: 1, TimeStep: 1)
#> LOC100996643_1_Inhibitor: LOC100996643 = !LOC100996643 (Confidence: 1, TimeStep: 1)
#> LOC100996643_2_Inhibitor: LOC100996643 = !BYSL (Confidence: 1, TimeStep: 1)
#> LOC100996643_3_Inhibitor: LOC100996643 = FGD2 (Confidence: 1, TimeStep: 1)
#> LOC100996643_4_Inhibitor: LOC100996643 = !FABP5 (Confidence: 1, TimeStep: 1)
#> LOC100996643_5_Inhibitor: LOC100996643 = SNX29P2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LOC285097 with decay value = 1:
#> LOC285097_1_Activator: LOC285097 = LOC285097&!PPIF (Confidence: 1, TimeStep: 1)
#> LOC285097_2_Activator: LOC285097 = LOC285097&!SEMA4D (Confidence: 1, TimeStep: 1)
#> LOC285097_3_Activator: LOC285097 = AKAP12&LOC285097 (Confidence: 1, TimeStep: 1)
#> LOC285097_4_Activator: LOC285097 = ISG20&LOC285097 (Confidence: 1, TimeStep: 1)
#> LOC285097_5_Activator: LOC285097 = B3GNT2&LOC285097 (Confidence: 1, TimeStep: 1)
#> LOC285097_1_Inhibitor: LOC285097 = SEMA4D (Confidence: 1, TimeStep: 1)
#> LOC285097_2_Inhibitor: LOC285097 = AKAP12&!LOC285097 (Confidence: 1, TimeStep: 1)
#> LOC285097_3_Inhibitor: LOC285097 = KIF26A&!LOC285097 (Confidence: 1, TimeStep: 1)
#> LOC285097_4_Inhibitor: LOC285097 = MSH6&PPIF (Confidence: 1, TimeStep: 1)
#> LOC285097_5_Inhibitor: LOC285097 = AKAP12&PPIF (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LOC728175 with decay value = 1:
#> LOC728175_1_Activator: LOC728175 = BCAT1&LOC728175 (Confidence: 1, TimeStep: 1)
#> LOC728175_2_Activator: LOC728175 = BCAT1&MYRIP (Confidence: 1, TimeStep: 1)
#> LOC728175_3_Activator: LOC728175 = !CELF2&LOC728175 (Confidence: 1, TimeStep: 1)
#> LOC728175_4_Activator: LOC728175 = ELL2&LOC728175 (Confidence: 1, TimeStep: 1)
#> LOC728175_5_Activator: LOC728175 = MYRIP&PTTG1 (Confidence: 1, TimeStep: 1)
#> LOC728175_1_Inhibitor: LOC728175 = !LOC728175 (Confidence: 1, TimeStep: 1)
#> LOC728175_2_Inhibitor: LOC728175 = !MYRIP (Confidence: 1, TimeStep: 1)
#> LOC728175_3_Inhibitor: LOC728175 = !BCAT1 (Confidence: 1, TimeStep: 1)
#> LOC728175_4_Inhibitor: LOC728175 = BIRC3 (Confidence: 1, TimeStep: 1)
#> LOC728175_5_Inhibitor: LOC728175 = IL27RA (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LY96 with decay value = 1:
#> LY96_1_Activator: LY96 = LY96 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for LYZ with decay value = 1:
#> LYZ_1_Activator: LYZ = F13A1 (Confidence: 1, TimeStep: 1)
#> LYZ_2_Activator: LYZ = LGALS3 (Confidence: 1, TimeStep: 1)
#> LYZ_3_Activator: LYZ = !CCNB1&IGH (Confidence: 1, TimeStep: 1)
#> LYZ_4_Activator: LYZ = !CENPV&MIR8071-1 (Confidence: 1, TimeStep: 1)
#> LYZ_5_Activator: LYZ = !BUB1B&IGH (Confidence: 1, TimeStep: 1)
#> LYZ_1_Inhibitor: LYZ = TMEM97 (Confidence: 1, TimeStep: 1)
#> LYZ_2_Inhibitor: LYZ = WDHD1 (Confidence: 1, TimeStep: 1)
#> LYZ_3_Inhibitor: LYZ = CENPH (Confidence: 1, TimeStep: 1)
#> LYZ_4_Inhibitor: LYZ = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> LYZ_5_Inhibitor: LYZ = ASF1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MAD2L1 with decay value = 1:
#> MAD2L1_1_Activator: MAD2L1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MAD2L1_2_Activator: MAD2L1 = ASF1B (Confidence: 1, TimeStep: 1)
#> MAD2L1_3_Activator: MAD2L1 = AURKA (Confidence: 1, TimeStep: 1)
#> MAD2L1_4_Activator: MAD2L1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> MAD2L1_5_Activator: MAD2L1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> MAD2L1_1_Inhibitor: MAD2L1 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MAD2L1_2_Inhibitor: MAD2L1 = !ASF1B (Confidence: 1, TimeStep: 1)
#> MAD2L1_3_Inhibitor: MAD2L1 = !AURKA (Confidence: 1, TimeStep: 1)
#> MAD2L1_4_Inhibitor: MAD2L1 = BTG1 (Confidence: 1, TimeStep: 1)
#> MAD2L1_5_Inhibitor: MAD2L1 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MCM10 with decay value = 1:
#> MCM10_1_Activator: MCM10 = !CD53&MDK (Confidence: 1, TimeStep: 1)
#> MCM10_2_Activator: MCM10 = CENPK&MDK (Confidence: 1, TimeStep: 1)
#> MCM10_3_Activator: MCM10 = !IGH&MDK (Confidence: 1, TimeStep: 1)
#> MCM10_4_Activator: MCM10 = !IGLC1&MDK (Confidence: 1, TimeStep: 1)
#> MCM10_5_Activator: MCM10 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> MCM10_1_Inhibitor: MCM10 = !CENPH (Confidence: 1, TimeStep: 1)
#> MCM10_2_Inhibitor: MCM10 = !CDK1 (Confidence: 1, TimeStep: 1)
#> MCM10_3_Inhibitor: MCM10 = !HMMR (Confidence: 1, TimeStep: 1)
#> MCM10_4_Inhibitor: MCM10 = !KIF14 (Confidence: 1, TimeStep: 1)
#> MCM10_5_Inhibitor: MCM10 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MCM4 with decay value = 1:
#> MCM4_1_Activator: MCM4 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MCM4_2_Activator: MCM4 = ASF1B (Confidence: 1, TimeStep: 1)
#> MCM4_3_Activator: MCM4 = AURKA (Confidence: 1, TimeStep: 1)
#> MCM4_4_Activator: MCM4 = !BTG1 (Confidence: 1, TimeStep: 1)
#> MCM4_5_Activator: MCM4 = CCDC34 (Confidence: 1, TimeStep: 1)
#> MCM4_1_Inhibitor: MCM4 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MCM4_2_Inhibitor: MCM4 = !ASF1B (Confidence: 1, TimeStep: 1)
#> MCM4_3_Inhibitor: MCM4 = !AURKA (Confidence: 1, TimeStep: 1)
#> MCM4_4_Inhibitor: MCM4 = BTG1 (Confidence: 1, TimeStep: 1)
#> MCM4_5_Inhibitor: MCM4 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MCM5 with decay value = 1:
#> MCM5_1_Activator: MCM5 = !ANP32E&BUB1B (Confidence: 1, TimeStep: 1)
#> MCM5_2_Activator: MCM5 = !ANP32E&C4orf46 (Confidence: 1, TimeStep: 1)
#> MCM5_3_Activator: MCM5 = !ANP32E&CCNB1 (Confidence: 1, TimeStep: 1)
#> MCM5_4_Activator: MCM5 = !ANP32E&CENPN (Confidence: 1, TimeStep: 1)
#> MCM5_5_Activator: MCM5 = !ANP32E&KIF15 (Confidence: 1, TimeStep: 1)
#> MCM5_1_Inhibitor: MCM5 = !CCNB1 (Confidence: 1, TimeStep: 1)
#> MCM5_2_Inhibitor: MCM5 = !BUB1B (Confidence: 1, TimeStep: 1)
#> MCM5_3_Inhibitor: MCM5 = !CENPN (Confidence: 1, TimeStep: 1)
#> MCM5_4_Inhibitor: MCM5 = !KIF15 (Confidence: 1, TimeStep: 1)
#> MCM5_5_Inhibitor: MCM5 = !MCM10 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MCM7 with decay value = 1:
#> MCM7_1_Activator: MCM7 = !APITD1-CORT&BRIP1 (Confidence: 1, TimeStep: 1)
#> MCM7_2_Activator: MCM7 = !APITD1-CORT&CHEK1 (Confidence: 1, TimeStep: 1)
#> MCM7_3_Activator: MCM7 = !APITD1-CORT&FANCI (Confidence: 1, TimeStep: 1)
#> MCM7_4_Activator: MCM7 = !APITD1-CORT&TTK (Confidence: 1, TimeStep: 1)
#> MCM7_5_Activator: MCM7 = !ASF1B&BRIP1 (Confidence: 1, TimeStep: 1)
#> MCM7_1_Inhibitor: MCM7 = !BRCA1 (Confidence: 1, TimeStep: 1)
#> MCM7_2_Inhibitor: MCM7 = !MCM7 (Confidence: 1, TimeStep: 1)
#> MCM7_3_Inhibitor: MCM7 = !BYSL (Confidence: 1, TimeStep: 1)
#> MCM7_4_Inhibitor: MCM7 = !PAICS (Confidence: 1, TimeStep: 1)
#> MCM7_5_Inhibitor: MCM7 = TBXA2R (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MDK with decay value = 1:
#> MDK_1_Activator: MDK = !CCNL1&MDK (Confidence: 1, TimeStep: 1)
#> MDK_2_Activator: MDK = BRCA1&MDK (Confidence: 1, TimeStep: 1)
#> MDK_3_Activator: MDK = BRIP1&MDK (Confidence: 1, TimeStep: 1)
#> MDK_4_Activator: MDK = BUB1B&MDK (Confidence: 1, TimeStep: 1)
#> MDK_5_Activator: MDK = C4orf46&MDK (Confidence: 1, TimeStep: 1)
#> MDK_1_Inhibitor: MDK = !MDK (Confidence: 1, TimeStep: 1)
#> MDK_2_Inhibitor: MDK = CLEC2B (Confidence: 1, TimeStep: 1)
#> MDK_3_Inhibitor: MDK = HBB (Confidence: 1, TimeStep: 1)
#> MDK_4_Inhibitor: MDK = !RMI2 (Confidence: 1, TimeStep: 1)
#> MDK_5_Inhibitor: MDK = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MDM2 with decay value = 1:
#> MDM2_1_Activator: MDM2 = !IL6ST&MDM2 (Confidence: 1, TimeStep: 1)
#> MDM2_2_Activator: MDM2 = !IL6ST&TENM4 (Confidence: 1, TimeStep: 1)
#> MDM2_1_Inhibitor: MDM2 = !TMEM2 (Confidence: 1, TimeStep: 1)
#> MDM2_2_Inhibitor: MDM2 = !MDM2&!MYRIP (Confidence: 1, TimeStep: 1)
#> MDM2_3_Inhibitor: MDM2 = !KCNK12&!P2RY14 (Confidence: 1, TimeStep: 1)
#> MDM2_4_Inhibitor: MDM2 = !MYRIP&!P2RY14 (Confidence: 1, TimeStep: 1)
#> MDM2_5_Inhibitor: MDM2 = !P2RY14&!TENM4 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MELK with decay value = 1:
#> MELK_1_Activator: MELK = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MELK_2_Activator: MELK = ASF1B (Confidence: 1, TimeStep: 1)
#> MELK_3_Activator: MELK = AURKA (Confidence: 1, TimeStep: 1)
#> MELK_4_Activator: MELK = !BTG1 (Confidence: 1, TimeStep: 1)
#> MELK_5_Activator: MELK = CCDC34 (Confidence: 1, TimeStep: 1)
#> MELK_1_Inhibitor: MELK = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MELK_2_Inhibitor: MELK = !ASF1B (Confidence: 1, TimeStep: 1)
#> MELK_3_Inhibitor: MELK = !AURKA (Confidence: 1, TimeStep: 1)
#> MELK_4_Inhibitor: MELK = BTG1 (Confidence: 1, TimeStep: 1)
#> MELK_5_Inhibitor: MELK = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for METTL7A with decay value = 1:
#> METTL7A_1_Activator: METTL7A = METTL7A (Confidence: 1, TimeStep: 1)
#> METTL7A_2_Activator: METTL7A = !ECT2 (Confidence: 1, TimeStep: 1)
#> METTL7A_3_Activator: METTL7A = TMEM2 (Confidence: 1, TimeStep: 1)
#> METTL7A_4_Activator: METTL7A = !CENPK (Confidence: 1, TimeStep: 1)
#> METTL7A_5_Activator: METTL7A = ISG20 (Confidence: 1, TimeStep: 1)
#> METTL7A_1_Inhibitor: METTL7A = !BMF&!TRIB1 (Confidence: 1, TimeStep: 1)
#> METTL7A_2_Inhibitor: METTL7A = !AKAP12&LOC100505650 (Confidence: 1, TimeStep: 1)
#> METTL7A_3_Inhibitor: METTL7A = !C5orf24&ECT2 (Confidence: 1, TimeStep: 1)
#> METTL7A_4_Inhibitor: METTL7A = !C5orf24&!ID2 (Confidence: 1, TimeStep: 1)
#> METTL7A_5_Inhibitor: METTL7A = !C5orf24&!METTL7A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MIR4683 with decay value = 1:
#> MIR4683_1_Activator: MIR4683 = MIR4683 (Confidence: 1, TimeStep: 1)
#> MIR4683_2_Activator: MIR4683 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> MIR4683_3_Activator: MIR4683 = BMF&RNASET2 (Confidence: 1, TimeStep: 1)
#> MIR4683_4_Activator: MIR4683 = C5orf24&RNASET2 (Confidence: 1, TimeStep: 1)
#> MIR4683_5_Activator: MIR4683 = AKAP12&RNASET2 (Confidence: 1, TimeStep: 1)
#> MIR4683_1_Inhibitor: MIR4683 = ECT2 (Confidence: 1, TimeStep: 1)
#> MIR4683_2_Inhibitor: MIR4683 = PPIF (Confidence: 1, TimeStep: 1)
#> MIR4683_3_Inhibitor: MIR4683 = FOXM1 (Confidence: 1, TimeStep: 1)
#> MIR4683_4_Inhibitor: MIR4683 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> MIR4683_5_Inhibitor: MIR4683 = !RAG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MIR6845 with decay value = 1:
#> MIR6845_1_Activator: MIR6845 = MIR6845 (Confidence: 1, TimeStep: 1)
#> MIR6845_2_Activator: MIR6845 = !BYSL (Confidence: 1, TimeStep: 1)
#> MIR6845_3_Activator: MIR6845 = !PAICS (Confidence: 1, TimeStep: 1)
#> MIR6845_4_Activator: MIR6845 = !CRNDE (Confidence: 1, TimeStep: 1)
#> MIR6845_5_Activator: MIR6845 = MIR4683 (Confidence: 1, TimeStep: 1)
#> MIR6845_1_Inhibitor: MIR6845 = ATAD2 (Confidence: 1, TimeStep: 1)
#> MIR6845_2_Inhibitor: MIR6845 = BIRC5 (Confidence: 1, TimeStep: 1)
#> MIR6845_3_Inhibitor: MIR6845 = BUB1 (Confidence: 1, TimeStep: 1)
#> MIR6845_4_Inhibitor: MIR6845 = CCNA2 (Confidence: 1, TimeStep: 1)
#> MIR6845_5_Inhibitor: MIR6845 = CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MIR8071-1 with decay value = 1:
#> MIR8071-1_1_Activator: MIR8071-1 = MIR8071-1 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_2_Activator: MIR8071-1 = F13A1 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_3_Activator: MIR8071-1 = LGALS3 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_4_Activator: MIR8071-1 = MNDA (Confidence: 1, TimeStep: 1)
#> MIR8071-1_5_Activator: MIR8071-1 = IGLC1&!TMEM97 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_1_Inhibitor: MIR8071-1 = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_2_Inhibitor: MIR8071-1 = LYZ&!MIR8071-1 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_3_Inhibitor: MIR8071-1 = !APITD1-CORT&!MS4A1 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_4_Inhibitor: MIR8071-1 = !ASF1B&!MS4A1 (Confidence: 1, TimeStep: 1)
#> MIR8071-1_5_Inhibitor: MIR8071-1 = !ATAD2&!MS4A1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MKI67 with decay value = 1:
#> MKI67_1_Activator: MKI67 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MKI67_2_Activator: MKI67 = ASF1B (Confidence: 1, TimeStep: 1)
#> MKI67_3_Activator: MKI67 = AURKA (Confidence: 1, TimeStep: 1)
#> MKI67_4_Activator: MKI67 = !BTG1 (Confidence: 1, TimeStep: 1)
#> MKI67_5_Activator: MKI67 = CCDC34 (Confidence: 1, TimeStep: 1)
#> MKI67_1_Inhibitor: MKI67 = !RRM2 (Confidence: 1, TimeStep: 1)
#> MKI67_2_Inhibitor: MKI67 = !CENPW (Confidence: 1, TimeStep: 1)
#> MKI67_3_Inhibitor: MKI67 = !TCF19 (Confidence: 1, TimeStep: 1)
#> MKI67_4_Inhibitor: MKI67 = !WDR76 (Confidence: 1, TimeStep: 1)
#> MKI67_5_Inhibitor: MKI67 = !DFNA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MND1 with decay value = 1:
#> MND1_1_Activator: MND1 = PTTG1 (Confidence: 1, TimeStep: 1)
#> MND1_2_Activator: MND1 = CDK1 (Confidence: 1, TimeStep: 1)
#> MND1_3_Activator: MND1 = HMMR (Confidence: 1, TimeStep: 1)
#> MND1_4_Activator: MND1 = KIF14 (Confidence: 1, TimeStep: 1)
#> MND1_5_Activator: MND1 = KIF20A (Confidence: 1, TimeStep: 1)
#> MND1_1_Inhibitor: MND1 = !MND1 (Confidence: 1, TimeStep: 1)
#> MND1_2_Inhibitor: MND1 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> MND1_3_Inhibitor: MND1 = !PAICS (Confidence: 1, TimeStep: 1)
#> MND1_4_Inhibitor: MND1 = !CRNDE (Confidence: 1, TimeStep: 1)
#> MND1_5_Inhibitor: MND1 = !SELENOI (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MNDA with decay value = 1:
#> MNDA_1_Activator: MNDA = !C5orf24&!ECT2 (Confidence: 1, TimeStep: 1)
#> MNDA_2_Activator: MNDA = IGLC1&!LEF1 (Confidence: 1, TimeStep: 1)
#> MNDA_3_Activator: MNDA = IGLC1&MNDA (Confidence: 1, TimeStep: 1)
#> MNDA_4_Activator: MNDA = ITPKB&MNDA (Confidence: 1, TimeStep: 1)
#> MNDA_5_Activator: MNDA = !C5orf24&FGD2 (Confidence: 1, TimeStep: 1)
#> MNDA_1_Inhibitor: MNDA = LOC100996643 (Confidence: 1, TimeStep: 1)
#> MNDA_2_Inhibitor: MNDA = !MIR8071-1 (Confidence: 1, TimeStep: 1)
#> MNDA_3_Inhibitor: MNDA = !CD53 (Confidence: 1, TimeStep: 1)
#> MNDA_4_Inhibitor: MNDA = ZWINT (Confidence: 1, TimeStep: 1)
#> MNDA_5_Inhibitor: MNDA = ANLN (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MPV17L with decay value = 1:
#> MPV17L_1_Activator: MPV17L = FABP5&!IGLL1 (Confidence: 1, TimeStep: 1)
#> MPV17L_2_Activator: MPV17L = FABP5&SNX29P2 (Confidence: 1, TimeStep: 1)
#> MPV17L_3_Activator: MPV17L = BYSL&!IGLL1 (Confidence: 1, TimeStep: 1)
#> MPV17L_4_Activator: MPV17L = FABP5&MPV17L (Confidence: 1, TimeStep: 1)
#> MPV17L_5_Activator: MPV17L = BYSL&MPV17L (Confidence: 1, TimeStep: 1)
#> MPV17L_1_Inhibitor: MPV17L = KIF4A (Confidence: 1, TimeStep: 1)
#> MPV17L_2_Inhibitor: MPV17L = RFC3 (Confidence: 1, TimeStep: 1)
#> MPV17L_3_Inhibitor: MPV17L = SHCBP1 (Confidence: 1, TimeStep: 1)
#> MPV17L_4_Inhibitor: MPV17L = FH (Confidence: 1, TimeStep: 1)
#> MPV17L_5_Inhibitor: MPV17L = CCNB1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MS4A1 with decay value = 1:
#> MS4A1_1_Activator: MS4A1 = MIR8071-1 (Confidence: 1, TimeStep: 1)
#> MS4A1_2_Activator: MS4A1 = MTSS1 (Confidence: 1, TimeStep: 1)
#> MS4A1_3_Activator: MS4A1 = SERPINB9 (Confidence: 1, TimeStep: 1)
#> MS4A1_4_Activator: MS4A1 = IGLC1 (Confidence: 1, TimeStep: 1)
#> MS4A1_5_Activator: MS4A1 = ITGAM (Confidence: 1, TimeStep: 1)
#> MS4A1_1_Inhibitor: MS4A1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MS4A1_2_Inhibitor: MS4A1 = ASF1B (Confidence: 1, TimeStep: 1)
#> MS4A1_3_Inhibitor: MS4A1 = AURKA (Confidence: 1, TimeStep: 1)
#> MS4A1_4_Inhibitor: MS4A1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> MS4A1_5_Inhibitor: MS4A1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MS4A4A with decay value = 1:
#> MS4A4A_1_Activator: MS4A4A = !F13A1&FGD2 (Confidence: 1, TimeStep: 1)
#> MS4A4A_2_Activator: MS4A4A = !MS4A4A&TARSL2 (Confidence: 1, TimeStep: 1)
#> MS4A4A_3_Activator: MS4A4A = !ID2&MTSS1 (Confidence: 1, TimeStep: 1)
#> MS4A4A_4_Activator: MS4A4A = !MIR6845&TARSL2 (Confidence: 1, TimeStep: 1)
#> MS4A4A_5_Activator: MS4A4A = CENPV&HRK (Confidence: 1, TimeStep: 1)
#> MS4A4A_1_Inhibitor: MS4A4A = !SMAP2 (Confidence: 1, TimeStep: 1)
#> MS4A4A_2_Inhibitor: MS4A4A = ECT2 (Confidence: 1, TimeStep: 1)
#> MS4A4A_3_Inhibitor: MS4A4A = FOXM1 (Confidence: 1, TimeStep: 1)
#> MS4A4A_4_Inhibitor: MS4A4A = STIL (Confidence: 1, TimeStep: 1)
#> MS4A4A_5_Inhibitor: MS4A4A = ATAD2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MS4A7 with decay value = 1:
#> MS4A7_1_Activator: MS4A7 = LILRA1 (Confidence: 1, TimeStep: 1)
#> MS4A7_2_Activator: MS4A7 = !E2F7&MS4A7 (Confidence: 1, TimeStep: 1)
#> MS4A7_3_Activator: MS4A7 = IL6ST&MS4A7 (Confidence: 1, TimeStep: 1)
#> MS4A7_4_Activator: MS4A7 = !CCNL1&FGD2 (Confidence: 1, TimeStep: 1)
#> MS4A7_5_Activator: MS4A7 = !CENPV&FGD2 (Confidence: 1, TimeStep: 1)
#> MS4A7_1_Inhibitor: MS4A7 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> MS4A7_2_Inhibitor: MS4A7 = ASF1B (Confidence: 1, TimeStep: 1)
#> MS4A7_3_Inhibitor: MS4A7 = AURKA (Confidence: 1, TimeStep: 1)
#> MS4A7_4_Inhibitor: MS4A7 = !BTG1 (Confidence: 1, TimeStep: 1)
#> MS4A7_5_Inhibitor: MS4A7 = CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MSH6 with decay value = 1:
#> MSH6_1_Activator: MSH6 = HRK (Confidence: 1, TimeStep: 1)
#> MSH6_2_Activator: MSH6 = TENM4 (Confidence: 1, TimeStep: 1)
#> MSH6_3_Activator: MSH6 = AKAP12&RMI2 (Confidence: 1, TimeStep: 1)
#> MSH6_4_Activator: MSH6 = ABHD17B&!SNX10 (Confidence: 1, TimeStep: 1)
#> MSH6_5_Activator: MSH6 = GSN&RMI2 (Confidence: 1, TimeStep: 1)
#> MSH6_1_Inhibitor: MSH6 = !MSH6 (Confidence: 1, TimeStep: 1)
#> MSH6_2_Inhibitor: MSH6 = !ID3 (Confidence: 1, TimeStep: 1)
#> MSH6_3_Inhibitor: MSH6 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> MSH6_4_Inhibitor: MSH6 = !ABHD17B (Confidence: 1, TimeStep: 1)
#> MSH6_5_Inhibitor: MSH6 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MTHFD2 with decay value = 1:
#> MTHFD2_1_Activator: MTHFD2 = !TXNIP (Confidence: 1, TimeStep: 1)
#> MTHFD2_2_Activator: MTHFD2 = ATAD2 (Confidence: 1, TimeStep: 1)
#> MTHFD2_3_Activator: MTHFD2 = BIRC5 (Confidence: 1, TimeStep: 1)
#> MTHFD2_4_Activator: MTHFD2 = BUB1 (Confidence: 1, TimeStep: 1)
#> MTHFD2_5_Activator: MTHFD2 = CCNA2 (Confidence: 1, TimeStep: 1)
#> MTHFD2_1_Inhibitor: MTHFD2 = !CCDC86 (Confidence: 1, TimeStep: 1)
#> MTHFD2_2_Inhibitor: MTHFD2 = !PAICS (Confidence: 1, TimeStep: 1)
#> MTHFD2_3_Inhibitor: MTHFD2 = ITGAM (Confidence: 1, TimeStep: 1)
#> MTHFD2_4_Inhibitor: MTHFD2 = !SELENOI (Confidence: 1, TimeStep: 1)
#> MTHFD2_5_Inhibitor: MTHFD2 = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MTSS1 with decay value = 1:
#> MTSS1_1_Activator: MTSS1 = MTSS1 (Confidence: 1, TimeStep: 1)
#> MTSS1_2_Activator: MTSS1 = SERPINB9 (Confidence: 1, TimeStep: 1)
#> MTSS1_3_Activator: MTSS1 = ITGAM (Confidence: 1, TimeStep: 1)
#> MTSS1_4_Activator: MTSS1 = HRK (Confidence: 1, TimeStep: 1)
#> MTSS1_5_Activator: MTSS1 = CCR1 (Confidence: 1, TimeStep: 1)
#> MTSS1_1_Inhibitor: MTSS1 = !SMAP2 (Confidence: 1, TimeStep: 1)
#> MTSS1_2_Inhibitor: MTSS1 = ECT2 (Confidence: 1, TimeStep: 1)
#> MTSS1_3_Inhibitor: MTSS1 = !MS4A1 (Confidence: 1, TimeStep: 1)
#> MTSS1_4_Inhibitor: MTSS1 = FOXM1 (Confidence: 1, TimeStep: 1)
#> MTSS1_5_Inhibitor: MTSS1 = STIL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for MYRIP with decay value = 1:
#> MYRIP_1_Activator: MYRIP = LOC728175 (Confidence: 1, TimeStep: 1)
#> MYRIP_2_Activator: MYRIP = !BIRC3&MDM2 (Confidence: 1, TimeStep: 1)
#> MYRIP_3_Activator: MYRIP = ELL2&MYRIP (Confidence: 1, TimeStep: 1)
#> MYRIP_4_Activator: MYRIP = KCNK12&!SNX10 (Confidence: 1, TimeStep: 1)
#> MYRIP_5_Activator: MYRIP = LOC100996643&MDM2 (Confidence: 1, TimeStep: 1)
#> MYRIP_1_Inhibitor: MYRIP = FGR (Confidence: 1, TimeStep: 1)
#> MYRIP_2_Inhibitor: MYRIP = !PTP4A1 (Confidence: 1, TimeStep: 1)
#> MYRIP_3_Inhibitor: MYRIP = !ID3 (Confidence: 1, TimeStep: 1)
#> MYRIP_4_Inhibitor: MYRIP = !ELL2&SNX10 (Confidence: 1, TimeStep: 1)
#> MYRIP_5_Inhibitor: MYRIP = !IL6ST&!LOC728175 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NCAPG with decay value = 1:
#> NCAPG_1_Activator: NCAPG = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NCAPG_2_Activator: NCAPG = ASF1B (Confidence: 1, TimeStep: 1)
#> NCAPG_3_Activator: NCAPG = AURKA (Confidence: 1, TimeStep: 1)
#> NCAPG_4_Activator: NCAPG = !BTG1 (Confidence: 1, TimeStep: 1)
#> NCAPG_5_Activator: NCAPG = CCDC34 (Confidence: 1, TimeStep: 1)
#> NCAPG_1_Inhibitor: NCAPG = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NCAPG_2_Inhibitor: NCAPG = !ASF1B (Confidence: 1, TimeStep: 1)
#> NCAPG_3_Inhibitor: NCAPG = !AURKA (Confidence: 1, TimeStep: 1)
#> NCAPG_4_Inhibitor: NCAPG = BTG1 (Confidence: 1, TimeStep: 1)
#> NCAPG_5_Inhibitor: NCAPG = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NCAPH with decay value = 1:
#> NCAPH_1_Activator: NCAPH = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NCAPH_2_Activator: NCAPH = ASF1B (Confidence: 1, TimeStep: 1)
#> NCAPH_3_Activator: NCAPH = AURKA (Confidence: 1, TimeStep: 1)
#> NCAPH_4_Activator: NCAPH = !BTG1 (Confidence: 1, TimeStep: 1)
#> NCAPH_5_Activator: NCAPH = CCDC34 (Confidence: 1, TimeStep: 1)
#> NCAPH_1_Inhibitor: NCAPH = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NCAPH_2_Inhibitor: NCAPH = !ASF1B (Confidence: 1, TimeStep: 1)
#> NCAPH_3_Inhibitor: NCAPH = !AURKA (Confidence: 1, TimeStep: 1)
#> NCAPH_4_Inhibitor: NCAPH = BTG1 (Confidence: 1, TimeStep: 1)
#> NCAPH_5_Inhibitor: NCAPH = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NEAT1 with decay value = 1:
#> NEAT1_1_Activator: NEAT1 = !ANP32E (Confidence: 1, TimeStep: 1)
#> NEAT1_2_Activator: NEAT1 = !FH (Confidence: 1, TimeStep: 1)
#> NEAT1_3_Activator: NEAT1 = NEAT1 (Confidence: 1, TimeStep: 1)
#> NEAT1_4_Activator: NEAT1 = !RFC3 (Confidence: 1, TimeStep: 1)
#> NEAT1_5_Activator: NEAT1 = !MTHFD2 (Confidence: 1, TimeStep: 1)
#> NEAT1_1_Inhibitor: NEAT1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NEAT1_2_Inhibitor: NEAT1 = ASF1B (Confidence: 1, TimeStep: 1)
#> NEAT1_3_Inhibitor: NEAT1 = AURKA (Confidence: 1, TimeStep: 1)
#> NEAT1_4_Inhibitor: NEAT1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> NEAT1_5_Inhibitor: NEAT1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NEDD9 with decay value = 1:
#> NEDD9_1_Activator: NEDD9 = RAB31 (Confidence: 1, TimeStep: 1)
#> NEDD9_2_Activator: NEDD9 = !ANLN&ITGAM (Confidence: 1, TimeStep: 1)
#> NEDD9_3_Activator: NEDD9 = !BCAT1&NEDD9 (Confidence: 1, TimeStep: 1)
#> NEDD9_4_Activator: NEDD9 = !BYSL&NEDD9 (Confidence: 1, TimeStep: 1)
#> NEDD9_5_Activator: NEDD9 = !ASPM&ITGAM (Confidence: 1, TimeStep: 1)
#> NEDD9_1_Inhibitor: NEDD9 = BYSL&!WFS1 (Confidence: 1, TimeStep: 1)
#> NEDD9_2_Inhibitor: NEDD9 = !AURKB&!RNASET2 (Confidence: 1, TimeStep: 1)
#> NEDD9_3_Inhibitor: NEDD9 = !ATAD2&!RNASET2 (Confidence: 1, TimeStep: 1)
#> NEDD9_4_Inhibitor: NEDD9 = !BIRC5&!RNASET2 (Confidence: 1, TimeStep: 1)
#> NEDD9_5_Inhibitor: NEDD9 = !BUB1&!RNASET2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NEK2 with decay value = 1:
#> NEK2_1_Activator: NEK2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NEK2_2_Activator: NEK2 = ASF1B (Confidence: 1, TimeStep: 1)
#> NEK2_3_Activator: NEK2 = AURKA (Confidence: 1, TimeStep: 1)
#> NEK2_4_Activator: NEK2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> NEK2_5_Activator: NEK2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> NEK2_1_Inhibitor: NEK2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NEK2_2_Inhibitor: NEK2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> NEK2_3_Inhibitor: NEK2 = !AURKA (Confidence: 1, TimeStep: 1)
#> NEK2_4_Inhibitor: NEK2 = BTG1 (Confidence: 1, TimeStep: 1)
#> NEK2_5_Inhibitor: NEK2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NME1 with decay value = 1:
#> NME1_1_Activator: NME1 = CENPH (Confidence: 1, TimeStep: 1)
#> NME1_2_Activator: NME1 = CKAP2 (Confidence: 1, TimeStep: 1)
#> NME1_3_Activator: NME1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NME1_4_Activator: NME1 = ASF1B (Confidence: 1, TimeStep: 1)
#> NME1_5_Activator: NME1 = AURKA (Confidence: 1, TimeStep: 1)
#> NME1_1_Inhibitor: NME1 = LYZ (Confidence: 1, TimeStep: 1)
#> NME1_2_Inhibitor: NME1 = !LOC100996643 (Confidence: 1, TimeStep: 1)
#> NME1_3_Inhibitor: NME1 = MIR8071-1 (Confidence: 1, TimeStep: 1)
#> NME1_4_Inhibitor: NME1 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> NME1_5_Inhibitor: NME1 = !BYSL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NPCDR1 with decay value = 1:
#> NPCDR1_1_Activator: NPCDR1 = ABHD17B&CDC42EP3 (Confidence: 1, TimeStep: 1)
#> NPCDR1_2_Activator: NPCDR1 = !BCL2L11&CDC42EP3 (Confidence: 1, TimeStep: 1)
#> NPCDR1_3_Activator: NPCDR1 = !BCL2L11&!LOC100996643 (Confidence: 1, TimeStep: 1)
#> NPCDR1_4_Activator: NPCDR1 = !BCL2L11&!PAICS (Confidence: 1, TimeStep: 1)
#> NPCDR1_5_Activator: NPCDR1 = BMF&CDC42EP3 (Confidence: 1, TimeStep: 1)
#> NPCDR1_1_Inhibitor: NPCDR1 = CDT1 (Confidence: 1, TimeStep: 1)
#> NPCDR1_2_Inhibitor: NPCDR1 = BRIP1 (Confidence: 1, TimeStep: 1)
#> NPCDR1_3_Inhibitor: NPCDR1 = CHEK1 (Confidence: 1, TimeStep: 1)
#> NPCDR1_4_Inhibitor: NPCDR1 = FANCI (Confidence: 1, TimeStep: 1)
#> NPCDR1_5_Inhibitor: NPCDR1 = TTK (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NUF2 with decay value = 1:
#> NUF2_1_Activator: NUF2 = CENPH (Confidence: 1, TimeStep: 1)
#> NUF2_2_Activator: NUF2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NUF2_3_Activator: NUF2 = ASF1B (Confidence: 1, TimeStep: 1)
#> NUF2_4_Activator: NUF2 = AURKA (Confidence: 1, TimeStep: 1)
#> NUF2_5_Activator: NUF2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> NUF2_1_Inhibitor: NUF2 = !CENPF (Confidence: 1, TimeStep: 1)
#> NUF2_2_Inhibitor: NUF2 = !NEK2 (Confidence: 1, TimeStep: 1)
#> NUF2_3_Inhibitor: NUF2 = !FH (Confidence: 1, TimeStep: 1)
#> NUF2_4_Inhibitor: NUF2 = !C4orf46 (Confidence: 1, TimeStep: 1)
#> NUF2_5_Inhibitor: NUF2 = !HELLS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for NUSAP1 with decay value = 1:
#> NUSAP1_1_Activator: NUSAP1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> NUSAP1_2_Activator: NUSAP1 = ASF1B (Confidence: 1, TimeStep: 1)
#> NUSAP1_3_Activator: NUSAP1 = AURKA (Confidence: 1, TimeStep: 1)
#> NUSAP1_4_Activator: NUSAP1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> NUSAP1_5_Activator: NUSAP1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> NUSAP1_1_Inhibitor: NUSAP1 = !CENPF (Confidence: 1, TimeStep: 1)
#> NUSAP1_2_Inhibitor: NUSAP1 = !DEPDC1B (Confidence: 1, TimeStep: 1)
#> NUSAP1_3_Inhibitor: NUSAP1 = !NEK2 (Confidence: 1, TimeStep: 1)
#> NUSAP1_4_Inhibitor: NUSAP1 = !ANP32E (Confidence: 1, TimeStep: 1)
#> NUSAP1_5_Inhibitor: NUSAP1 = !FH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for OIP5 with decay value = 1:
#> OIP5_1_Activator: OIP5 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> OIP5_2_Activator: OIP5 = ASF1B (Confidence: 1, TimeStep: 1)
#> OIP5_3_Activator: OIP5 = AURKA (Confidence: 1, TimeStep: 1)
#> OIP5_4_Activator: OIP5 = !BTG1 (Confidence: 1, TimeStep: 1)
#> OIP5_5_Activator: OIP5 = CCDC34 (Confidence: 1, TimeStep: 1)
#> OIP5_1_Inhibitor: OIP5 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> OIP5_2_Inhibitor: OIP5 = !ASF1B (Confidence: 1, TimeStep: 1)
#> OIP5_3_Inhibitor: OIP5 = !AURKA (Confidence: 1, TimeStep: 1)
#> OIP5_4_Inhibitor: OIP5 = BTG1 (Confidence: 1, TimeStep: 1)
#> OIP5_5_Inhibitor: OIP5 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for P2RX5 with decay value = 1:
#> P2RX5_1_Activator: P2RX5 = CRNDE&P2RX5 (Confidence: 1, TimeStep: 1)
#> P2RX5_2_Activator: P2RX5 = DFNA5&P2RX5 (Confidence: 1, TimeStep: 1)
#> P2RX5_3_Activator: P2RX5 = KIF11&P2RX5 (Confidence: 1, TimeStep: 1)
#> P2RX5_4_Activator: P2RX5 = CDC20&P2RX5 (Confidence: 1, TimeStep: 1)
#> P2RX5_5_Activator: P2RX5 = KIF4A&P2RX5 (Confidence: 1, TimeStep: 1)
#> P2RX5_1_Inhibitor: P2RX5 = !DFNA5&IQGAP3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for P2RY14 with decay value = 1:
#> P2RY14_1_Activator: P2RY14 = C5orf24&DENND3 (Confidence: 1, TimeStep: 1)
#> P2RY14_2_Activator: P2RY14 = !BCL2L11&DENND3 (Confidence: 1, TimeStep: 1)
#> P2RY14_3_Activator: P2RY14 = DPEP1&IL1B (Confidence: 1, TimeStep: 1)
#> P2RY14_4_Activator: P2RY14 = BMF&DENND3 (Confidence: 1, TimeStep: 1)
#> P2RY14_5_Activator: P2RY14 = DPEP1&PDE4B (Confidence: 1, TimeStep: 1)
#> P2RY14_1_Inhibitor: P2RY14 = !METTL7A (Confidence: 1, TimeStep: 1)
#> P2RY14_2_Inhibitor: P2RY14 = UBE2C (Confidence: 1, TimeStep: 1)
#> P2RY14_3_Inhibitor: P2RY14 = CENPV&!KIF26A (Confidence: 1, TimeStep: 1)
#> P2RY14_4_Inhibitor: P2RY14 = !GSN&!IRAK3 (Confidence: 1, TimeStep: 1)
#> P2RY14_5_Inhibitor: P2RY14 = !GSN&!PDE4B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PAICS with decay value = 1:
#> PAICS_1_Activator: PAICS = !CD53 (Confidence: 1, TimeStep: 1)
#> PAICS_2_Activator: PAICS = GGH (Confidence: 1, TimeStep: 1)
#> PAICS_3_Activator: PAICS = FOXM1 (Confidence: 1, TimeStep: 1)
#> PAICS_4_Activator: PAICS = KIF2C (Confidence: 1, TimeStep: 1)
#> PAICS_5_Activator: PAICS = STIL (Confidence: 1, TimeStep: 1)
#> PAICS_1_Inhibitor: PAICS = !BYSL (Confidence: 1, TimeStep: 1)
#> PAICS_2_Inhibitor: PAICS = !PAICS (Confidence: 1, TimeStep: 1)
#> PAICS_3_Inhibitor: PAICS = !FABP5 (Confidence: 1, TimeStep: 1)
#> PAICS_4_Inhibitor: PAICS = F13A1 (Confidence: 1, TimeStep: 1)
#> PAICS_5_Inhibitor: PAICS = LGALS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PBK with decay value = 1:
#> PBK_1_Activator: PBK = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PBK_2_Activator: PBK = ASF1B (Confidence: 1, TimeStep: 1)
#> PBK_3_Activator: PBK = AURKA (Confidence: 1, TimeStep: 1)
#> PBK_4_Activator: PBK = !BTG1 (Confidence: 1, TimeStep: 1)
#> PBK_5_Activator: PBK = CCDC34 (Confidence: 1, TimeStep: 1)
#> PBK_1_Inhibitor: PBK = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PBK_2_Inhibitor: PBK = !ASF1B (Confidence: 1, TimeStep: 1)
#> PBK_3_Inhibitor: PBK = !AURKA (Confidence: 1, TimeStep: 1)
#> PBK_4_Inhibitor: PBK = BTG1 (Confidence: 1, TimeStep: 1)
#> PBK_5_Inhibitor: PBK = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PCNA with decay value = 1:
#> PCNA_1_Activator: PCNA = BUB1B (Confidence: 1, TimeStep: 1)
#> PCNA_2_Activator: PCNA = CENPN (Confidence: 1, TimeStep: 1)
#> PCNA_3_Activator: PCNA = KIF15 (Confidence: 1, TimeStep: 1)
#> PCNA_4_Activator: PCNA = MCM10 (Confidence: 1, TimeStep: 1)
#> PCNA_5_Activator: PCNA = PLK4 (Confidence: 1, TimeStep: 1)
#> PCNA_1_Inhibitor: PCNA = !CDC20 (Confidence: 1, TimeStep: 1)
#> PCNA_2_Inhibitor: PCNA = !CENPW (Confidence: 1, TimeStep: 1)
#> PCNA_3_Inhibitor: PCNA = !DHFR (Confidence: 1, TimeStep: 1)
#> PCNA_4_Inhibitor: PCNA = !RAD51 (Confidence: 1, TimeStep: 1)
#> PCNA_5_Inhibitor: PCNA = !KIF11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PDE4B with decay value = 1:
#> PDE4B_1_Activator: PDE4B = IL18R1 (Confidence: 1, TimeStep: 1)
#> PDE4B_2_Activator: PDE4B = F13A1 (Confidence: 1, TimeStep: 1)
#> PDE4B_3_Activator: PDE4B = IL18RAP (Confidence: 1, TimeStep: 1)
#> PDE4B_4_Activator: PDE4B = !ASPM&PDE4B (Confidence: 1, TimeStep: 1)
#> PDE4B_5_Activator: PDE4B = !ANP32E&MS4A4A (Confidence: 1, TimeStep: 1)
#> PDE4B_1_Inhibitor: PDE4B = !IRAK3 (Confidence: 1, TimeStep: 1)
#> PDE4B_2_Inhibitor: PDE4B = !TMEM2 (Confidence: 1, TimeStep: 1)
#> PDE4B_3_Inhibitor: PDE4B = ANP32E (Confidence: 1, TimeStep: 1)
#> PDE4B_4_Inhibitor: PDE4B = ECT2 (Confidence: 1, TimeStep: 1)
#> PDE4B_5_Inhibitor: PDE4B = FH (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PFKFB2 with decay value = 1:
#> PFKFB2_1_Activator: PFKFB2 = !MYRIP&PFKFB2 (Confidence: 1, TimeStep: 1)
#> PFKFB2_2_Activator: PFKFB2 = !LOC728175&TNFRSF21 (Confidence: 1, TimeStep: 2)
#> PFKFB2_3_Activator: PFKFB2 = !MYRIP&TNFRSF21 (Confidence: 1, TimeStep: 2)
#> PFKFB2_1_Inhibitor: PFKFB2 = LOC728175 (Confidence: 1, TimeStep: 1)
#> PFKFB2_2_Inhibitor: PFKFB2 = !BIRC3&LOC100996643 (Confidence: 1, TimeStep: 1)
#> PFKFB2_3_Inhibitor: PFKFB2 = LOC100996643&MYRIP (Confidence: 1, TimeStep: 1)
#> PFKFB2_4_Inhibitor: PFKFB2 = MYRIP&!PFKFB2 (Confidence: 1, TimeStep: 1)
#> PFKFB2_5_Inhibitor: PFKFB2 = IL6ST&LOC100996643 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PHF19 with decay value = 1:
#> PHF19_1_Activator: PHF19 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PHF19_2_Activator: PHF19 = ASF1B (Confidence: 1, TimeStep: 1)
#> PHF19_3_Activator: PHF19 = AURKA (Confidence: 1, TimeStep: 1)
#> PHF19_4_Activator: PHF19 = !BTG1 (Confidence: 1, TimeStep: 1)
#> PHF19_5_Activator: PHF19 = CCDC34 (Confidence: 1, TimeStep: 1)
#> PHF19_1_Inhibitor: PHF19 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PHF19_2_Inhibitor: PHF19 = !ASF1B (Confidence: 1, TimeStep: 1)
#> PHF19_3_Inhibitor: PHF19 = !AURKA (Confidence: 1, TimeStep: 1)
#> PHF19_4_Inhibitor: PHF19 = BTG1 (Confidence: 1, TimeStep: 1)
#> PHF19_5_Inhibitor: PHF19 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PIK3IP1 with decay value = 1:
#> PIK3IP1_1_Activator: PIK3IP1 = !MCM7 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_2_Activator: PIK3IP1 = !PAICS (Confidence: 1, TimeStep: 1)
#> PIK3IP1_3_Activator: PIK3IP1 = DDIT4 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_4_Activator: PIK3IP1 = FGD2 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_5_Activator: PIK3IP1 = CCR1 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_1_Inhibitor: PIK3IP1 = !ZFP36L2 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_2_Inhibitor: PIK3IP1 = BRCA1&!SMIM3 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_3_Inhibitor: PIK3IP1 = CENPU&!SMIM3 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_4_Inhibitor: PIK3IP1 = BRIP1&!SMIM3 (Confidence: 1, TimeStep: 1)
#> PIK3IP1_5_Inhibitor: PIK3IP1 = CDT1&!SMIM3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PLK4 with decay value = 1:
#> PLK4_1_Activator: PLK4 = CENPH (Confidence: 1, TimeStep: 1)
#> PLK4_2_Activator: PLK4 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PLK4_3_Activator: PLK4 = ASF1B (Confidence: 1, TimeStep: 1)
#> PLK4_4_Activator: PLK4 = AURKA (Confidence: 1, TimeStep: 1)
#> PLK4_5_Activator: PLK4 = !BTG1 (Confidence: 1, TimeStep: 1)
#> PLK4_1_Inhibitor: PLK4 = !CENPH (Confidence: 1, TimeStep: 1)
#> PLK4_2_Inhibitor: PLK4 = !CDK1 (Confidence: 1, TimeStep: 1)
#> PLK4_3_Inhibitor: PLK4 = !HMMR (Confidence: 1, TimeStep: 1)
#> PLK4_4_Inhibitor: PLK4 = !KIF14 (Confidence: 1, TimeStep: 1)
#> PLK4_5_Inhibitor: PLK4 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for POLE2 with decay value = 1:
#> POLE2_1_Activator: POLE2 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> POLE2_2_Activator: POLE2 = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> POLE2_3_Activator: POLE2 = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> POLE2_4_Activator: POLE2 = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> POLE2_5_Activator: POLE2 = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> POLE2_1_Inhibitor: POLE2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> POLE2_2_Inhibitor: POLE2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> POLE2_3_Inhibitor: POLE2 = !AURKA (Confidence: 1, TimeStep: 1)
#> POLE2_4_Inhibitor: POLE2 = BTG1 (Confidence: 1, TimeStep: 1)
#> POLE2_5_Inhibitor: POLE2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for POLQ with decay value = 1:
#> POLQ_1_Activator: POLQ = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> POLQ_2_Activator: POLQ = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> POLQ_3_Activator: POLQ = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> POLQ_4_Activator: POLQ = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> POLQ_5_Activator: POLQ = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> POLQ_1_Inhibitor: POLQ = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> POLQ_2_Inhibitor: POLQ = !ASF1B (Confidence: 1, TimeStep: 1)
#> POLQ_3_Inhibitor: POLQ = !AURKA (Confidence: 1, TimeStep: 1)
#> POLQ_4_Inhibitor: POLQ = BTG1 (Confidence: 1, TimeStep: 1)
#> POLQ_5_Inhibitor: POLQ = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for POU4F1 with decay value = 1:
#> POU4F1_1_Activator: POU4F1 = !BRIP1&POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_2_Activator: POU4F1 = !BUB1B&POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_3_Activator: POU4F1 = CD53&POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_4_Activator: POU4F1 = !CDT1&POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_5_Activator: POU4F1 = !CENPN&POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_1_Inhibitor: POU4F1 = !POU4F1 (Confidence: 1, TimeStep: 1)
#> POU4F1_2_Inhibitor: POU4F1 = !ISG20 (Confidence: 1, TimeStep: 1)
#> POU4F1_3_Inhibitor: POU4F1 = !CD53 (Confidence: 1, TimeStep: 1)
#> POU4F1_4_Inhibitor: POU4F1 = CDT1 (Confidence: 1, TimeStep: 1)
#> POU4F1_5_Inhibitor: POU4F1 = ZWINT (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PPBP with decay value = 1:
#> PPBP_1_Activator: PPBP = CELF2&F13A1 (Confidence: 1, TimeStep: 1)
#> PPBP_2_Activator: PPBP = !C5orf24&PIK3IP1 (Confidence: 1, TimeStep: 1)
#> PPBP_3_Activator: PPBP = CCR1&F13A1 (Confidence: 1, TimeStep: 1)
#> PPBP_4_Activator: PPBP = CDC42EP3&FGD2 (Confidence: 1, TimeStep: 1)
#> PPBP_5_Activator: PPBP = !CRNDE&F13A1 (Confidence: 1, TimeStep: 1)
#> PPBP_1_Inhibitor: PPBP = E2F8 (Confidence: 1, TimeStep: 1)
#> PPBP_2_Inhibitor: PPBP = !GIMAP7 (Confidence: 1, TimeStep: 1)
#> PPBP_3_Inhibitor: PPBP = !GIMAP4 (Confidence: 1, TimeStep: 1)
#> PPBP_4_Inhibitor: PPBP = KIF11 (Confidence: 1, TimeStep: 1)
#> PPBP_5_Inhibitor: PPBP = KNL1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PPIF with decay value = 1:
#> PPIF_1_Activator: PPIF = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PPIF_2_Activator: PPIF = ASF1B (Confidence: 1, TimeStep: 1)
#> PPIF_3_Activator: PPIF = AURKA (Confidence: 1, TimeStep: 1)
#> PPIF_4_Activator: PPIF = !BTG1 (Confidence: 1, TimeStep: 1)
#> PPIF_5_Activator: PPIF = CCDC34 (Confidence: 1, TimeStep: 1)
#> PPIF_1_Inhibitor: PPIF = !BCL2L11 (Confidence: 1, TimeStep: 1)
#> PPIF_2_Inhibitor: PPIF = BMF (Confidence: 1, TimeStep: 1)
#> PPIF_3_Inhibitor: PPIF = DPEP1 (Confidence: 1, TimeStep: 1)
#> PPIF_4_Inhibitor: PPIF = NPCDR1 (Confidence: 1, TimeStep: 1)
#> PPIF_5_Inhibitor: PPIF = IL1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PPP1R16B with decay value = 1:
#> PPP1R16B_1_Activator: PPP1R16B = PPP1R16B (Confidence: 1, TimeStep: 1)
#> PPP1R16B_2_Activator: PPP1R16B = LGALS3 (Confidence: 1, TimeStep: 1)
#> PPP1R16B_3_Activator: PPP1R16B = LOC100130872 (Confidence: 1, TimeStep: 1)
#> PPP1R16B_4_Activator: PPP1R16B = LILRA1 (Confidence: 1, TimeStep: 1)
#> PPP1R16B_5_Activator: PPP1R16B = !DTL&!PSPH (Confidence: 1, TimeStep: 1)
#> PPP1R16B_1_Inhibitor: PPP1R16B = RFC3 (Confidence: 1, TimeStep: 1)
#> PPP1R16B_2_Inhibitor: PPP1R16B = FH (Confidence: 1, TimeStep: 1)
#> PPP1R16B_3_Inhibitor: PPP1R16B = CCNB1 (Confidence: 1, TimeStep: 1)
#> PPP1R16B_4_Inhibitor: PPP1R16B = CENPF (Confidence: 1, TimeStep: 1)
#> PPP1R16B_5_Inhibitor: PPP1R16B = DEPDC1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PRDM1 with decay value = 1:
#> PRDM1_1_Activator: PRDM1 = PPBP (Confidence: 1, TimeStep: 1)
#> PRDM1_2_Activator: PRDM1 = FGL2 (Confidence: 1, TimeStep: 1)
#> PRDM1_3_Activator: PRDM1 = CDC42EP3&FGR (Confidence: 1, TimeStep: 1)
#> PRDM1_4_Activator: PRDM1 = FCER1G&!RAD51AP1 (Confidence: 1, TimeStep: 1)
#> PRDM1_5_Activator: PRDM1 = FCGR3B&!RAD51AP1 (Confidence: 1, TimeStep: 1)
#> PRDM1_1_Inhibitor: PRDM1 = RAD51AP1 (Confidence: 1, TimeStep: 1)
#> PRDM1_2_Inhibitor: PRDM1 = TOP2A (Confidence: 1, TimeStep: 1)
#> PRDM1_3_Inhibitor: PRDM1 = DTL (Confidence: 1, TimeStep: 1)
#> PRDM1_4_Inhibitor: PRDM1 = !ID2 (Confidence: 1, TimeStep: 1)
#> PRDM1_5_Inhibitor: PRDM1 = MCM7 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PRPS2 with decay value = 1:
#> PRPS2_1_Activator: PRPS2 = !IFNGR1 (Confidence: 1, TimeStep: 1)
#> PRPS2_2_Activator: PRPS2 = !SERPINB9 (Confidence: 1, TimeStep: 1)
#> PRPS2_3_Activator: PRPS2 = CENPV (Confidence: 1, TimeStep: 1)
#> PRPS2_4_Activator: PRPS2 = !IRAK3 (Confidence: 1, TimeStep: 1)
#> PRPS2_5_Activator: PRPS2 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> PRPS2_1_Inhibitor: PRPS2 = !BCAT1&RPS6KA2 (Confidence: 1, TimeStep: 1)
#> PRPS2_2_Inhibitor: PRPS2 = FGD2&IGH (Confidence: 1, TimeStep: 1)
#> PRPS2_3_Inhibitor: PRPS2 = FGD2&!PRPS2 (Confidence: 1, TimeStep: 1)
#> PRPS2_4_Inhibitor: PRPS2 = !BCAT1&BTNL9 (Confidence: 1, TimeStep: 1)
#> PRPS2_5_Inhibitor: PRPS2 = CCR1&!PRPS2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PRR11 with decay value = 1:
#> PRR11_1_Activator: PRR11 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PRR11_2_Activator: PRR11 = ASF1B (Confidence: 1, TimeStep: 1)
#> PRR11_3_Activator: PRR11 = AURKA (Confidence: 1, TimeStep: 1)
#> PRR11_4_Activator: PRR11 = !BTG1 (Confidence: 1, TimeStep: 1)
#> PRR11_5_Activator: PRR11 = CCDC34 (Confidence: 1, TimeStep: 1)
#> PRR11_1_Inhibitor: PRR11 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PRR11_2_Inhibitor: PRR11 = !ASF1B (Confidence: 1, TimeStep: 1)
#> PRR11_3_Inhibitor: PRR11 = !AURKA (Confidence: 1, TimeStep: 1)
#> PRR11_4_Inhibitor: PRR11 = BTG1 (Confidence: 1, TimeStep: 1)
#> PRR11_5_Inhibitor: PRR11 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PSPH with decay value = 1:
#> PSPH_1_Activator: PSPH = CKAP2L (Confidence: 1, TimeStep: 1)
#> PSPH_2_Activator: PSPH = KIF18B (Confidence: 1, TimeStep: 1)
#> PSPH_3_Activator: PSPH = UBE2T (Confidence: 1, TimeStep: 1)
#> PSPH_4_Activator: PSPH = ATAD2 (Confidence: 1, TimeStep: 1)
#> PSPH_5_Activator: PSPH = AURKB (Confidence: 1, TimeStep: 1)
#> PSPH_1_Inhibitor: PSPH = LGALS3 (Confidence: 1, TimeStep: 1)
#> PSPH_2_Inhibitor: PSPH = RAB31 (Confidence: 1, TimeStep: 1)
#> PSPH_3_Inhibitor: PSPH = !ANP32E&PPP1R16B (Confidence: 1, TimeStep: 1)
#> PSPH_4_Inhibitor: PSPH = !ASPM&!RCC1 (Confidence: 1, TimeStep: 1)
#> PSPH_5_Inhibitor: PSPH = !ATAD2&PPP1R16B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PTP4A1 with decay value = 1:
#> PTP4A1_1_Activator: PTP4A1 = KIF4A (Confidence: 1, TimeStep: 1)
#> PTP4A1_2_Activator: PTP4A1 = RFC3 (Confidence: 1, TimeStep: 1)
#> PTP4A1_3_Activator: PTP4A1 = FH (Confidence: 1, TimeStep: 1)
#> PTP4A1_4_Activator: PTP4A1 = CCNB1 (Confidence: 1, TimeStep: 1)
#> PTP4A1_5_Activator: PTP4A1 = CENPF (Confidence: 1, TimeStep: 1)
#> PTP4A1_1_Inhibitor: PTP4A1 = !TYMS (Confidence: 1, TimeStep: 1)
#> PTP4A1_2_Inhibitor: PTP4A1 = PPP1R16B (Confidence: 1, TimeStep: 1)
#> PTP4A1_3_Inhibitor: PTP4A1 = !PTP4A1 (Confidence: 1, TimeStep: 1)
#> PTP4A1_4_Inhibitor: PTP4A1 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> PTP4A1_5_Inhibitor: PTP4A1 = LGALS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for PTTG1 with decay value = 1:
#> PTTG1_1_Activator: PTTG1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> PTTG1_2_Activator: PTTG1 = ASF1B (Confidence: 1, TimeStep: 1)
#> PTTG1_3_Activator: PTTG1 = AURKA (Confidence: 1, TimeStep: 1)
#> PTTG1_4_Activator: PTTG1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> PTTG1_5_Activator: PTTG1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> PTTG1_1_Inhibitor: PTTG1 = !PTTG1 (Confidence: 1, TimeStep: 1)
#> PTTG1_2_Inhibitor: PTTG1 = NEAT1 (Confidence: 1, TimeStep: 1)
#> PTTG1_3_Inhibitor: PTTG1 = GIMAP7 (Confidence: 1, TimeStep: 1)
#> PTTG1_4_Inhibitor: PTTG1 = !MND1 (Confidence: 1, TimeStep: 1)
#> PTTG1_5_Inhibitor: PTTG1 = IRAK3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RAB31 with decay value = 1:
#> RAB31_1_Activator: RAB31 = CDC42EP3&!LEF1 (Confidence: 1, TimeStep: 1)
#> RAB31_2_Activator: RAB31 = CDC42EP3&ZBTB16 (Confidence: 1, TimeStep: 1)
#> RAB31_3_Activator: RAB31 = CELF2&LGALS3 (Confidence: 1, TimeStep: 1)
#> RAB31_4_Activator: RAB31 = !FABP5&ZBTB16 (Confidence: 1, TimeStep: 1)
#> RAB31_5_Activator: RAB31 = HBG1&!LEF1 (Confidence: 1, TimeStep: 1)
#> RAB31_1_Inhibitor: RAB31 = CRNDE (Confidence: 1, TimeStep: 1)
#> RAB31_2_Inhibitor: RAB31 = !KLF9 (Confidence: 1, TimeStep: 1)
#> RAB31_3_Inhibitor: RAB31 = RCC1 (Confidence: 1, TimeStep: 1)
#> RAB31_4_Inhibitor: RAB31 = !IFNGR1 (Confidence: 1, TimeStep: 1)
#> RAB31_5_Inhibitor: RAB31 = LOC100996643 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RAD51 with decay value = 1:
#> RAD51_1_Activator: RAD51 = BUB1B (Confidence: 1, TimeStep: 1)
#> RAD51_2_Activator: RAD51 = CENPN (Confidence: 1, TimeStep: 1)
#> RAD51_3_Activator: RAD51 = KIF15 (Confidence: 1, TimeStep: 1)
#> RAD51_4_Activator: RAD51 = MCM10 (Confidence: 1, TimeStep: 1)
#> RAD51_5_Activator: RAD51 = PLK4 (Confidence: 1, TimeStep: 1)
#> RAD51_1_Inhibitor: RAD51 = !BUB1B (Confidence: 1, TimeStep: 1)
#> RAD51_2_Inhibitor: RAD51 = !CENPN (Confidence: 1, TimeStep: 1)
#> RAD51_3_Inhibitor: RAD51 = !KIF15 (Confidence: 1, TimeStep: 1)
#> RAD51_4_Inhibitor: RAD51 = !MCM10 (Confidence: 1, TimeStep: 1)
#> RAD51_5_Inhibitor: RAD51 = !PLK4 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RAD51AP1 with decay value = 1:
#> RAD51AP1_1_Activator: RAD51AP1 = CKAP2L (Confidence: 1, TimeStep: 1)
#> RAD51AP1_2_Activator: RAD51AP1 = KIF18B (Confidence: 1, TimeStep: 1)
#> RAD51AP1_3_Activator: RAD51AP1 = UBE2T (Confidence: 1, TimeStep: 1)
#> RAD51AP1_4_Activator: RAD51AP1 = ATAD2 (Confidence: 1, TimeStep: 1)
#> RAD51AP1_5_Activator: RAD51AP1 = AURKB (Confidence: 1, TimeStep: 1)
#> RAD51AP1_1_Inhibitor: RAD51AP1 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> RAD51AP1_2_Inhibitor: RAD51AP1 = !BYSL (Confidence: 1, TimeStep: 1)
#> RAD51AP1_3_Inhibitor: RAD51AP1 = !PAICS (Confidence: 1, TimeStep: 1)
#> RAD51AP1_4_Inhibitor: RAD51AP1 = !SELENOI (Confidence: 1, TimeStep: 1)
#> RAD51AP1_5_Inhibitor: RAD51AP1 = CCR1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RAG1 with decay value = 1:
#> RAG1_1_Activator: RAG1 = RAG1 (Confidence: 1, TimeStep: 1)
#> RAG1_2_Activator: RAG1 = ARPP21 (Confidence: 1, TimeStep: 1)
#> RAG1_3_Activator: RAG1 = IL1B (Confidence: 1, TimeStep: 1)
#> RAG1_4_Activator: RAG1 = KIF26A (Confidence: 1, TimeStep: 1)
#> RAG1_5_Activator: RAG1 = LOC285097 (Confidence: 1, TimeStep: 1)
#> RAG1_1_Inhibitor: RAG1 = !BRCA1&!RAG1 (Confidence: 1, TimeStep: 1)
#> RAG1_2_Inhibitor: RAG1 = !LOC100996643&!RAG1 (Confidence: 1, TimeStep: 1)
#> RAG1_3_Inhibitor: RAG1 = !AKAP12&!PAICS (Confidence: 1, TimeStep: 1)
#> RAG1_4_Inhibitor: RAG1 = !BYSL&!RAG1 (Confidence: 1, TimeStep: 1)
#> RAG1_5_Inhibitor: RAG1 = !C5orf24&!RAG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RAG2 with decay value = 1:
#> RAG2_1_Activator: RAG2 = !CELF2&RAG2 (Confidence: 1, TimeStep: 1)
#> RAG2_2_Activator: RAG2 = !CELF2&!IL27RA (Confidence: 1, TimeStep: 1)
#> RAG2_3_Activator: RAG2 = !FUS&!IL27RA (Confidence: 1, TimeStep: 1)
#> RAG2_4_Activator: RAG2 = ITGB2-AS1&!LOC100130872 (Confidence: 1, TimeStep: 1)
#> RAG2_5_Activator: RAG2 = C5orf24&!CCR1&RAG2 (Confidence: 1, TimeStep: 1)
#> RAG2_1_Inhibitor: RAG2 = !IGLL1 (Confidence: 1, TimeStep: 1)
#> RAG2_2_Inhibitor: RAG2 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> RAG2_3_Inhibitor: RAG2 = IL27RA&!RAG2 (Confidence: 1, TimeStep: 1)
#> RAG2_4_Inhibitor: RAG2 = !BCAT1&!RAG2 (Confidence: 1, TimeStep: 1)
#> RAG2_5_Inhibitor: RAG2 = !AKAP12&!BCAT1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RASSF4 with decay value = 1:
#> RASSF4_1_Activator: RASSF4 = F13A1 (Confidence: 1, TimeStep: 1)
#> RASSF4_2_Activator: RASSF4 = LGALS3 (Confidence: 1, TimeStep: 1)
#> RASSF4_3_Activator: RASSF4 = MNDA (Confidence: 1, TimeStep: 1)
#> RASSF4_4_Activator: RASSF4 = !CDT1&MIR8071-1 (Confidence: 1, TimeStep: 1)
#> RASSF4_5_Activator: RASSF4 = !CENPU&MIR8071-1 (Confidence: 1, TimeStep: 1)
#> RASSF4_1_Inhibitor: RASSF4 = BCL10 (Confidence: 1, TimeStep: 1)
#> RASSF4_2_Inhibitor: RASSF4 = CLEC2B&!MIR8071-1 (Confidence: 1, TimeStep: 1)
#> RASSF4_3_Inhibitor: RASSF4 = CRNDE&!TARSL2 (Confidence: 1, TimeStep: 2)
#> RASSF4_4_Inhibitor: RASSF4 = !CENPU&!MIR8071-1 (Confidence: 1, TimeStep: 2)
#> RASSF4_5_Inhibitor: RASSF4 = !BCL10&!MIR8071-1 (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for RBM14 with decay value = 1:
#> RBM14_1_Activator: RBM14 = UBE2C (Confidence: 1, TimeStep: 1)
#> RBM14_2_Activator: RBM14 = MCM5&NME1 (Confidence: 1, TimeStep: 1)
#> RBM14_3_Activator: RBM14 = CCDC86&MCM5 (Confidence: 1, TimeStep: 1)
#> RBM14_4_Activator: RBM14 = !CELF2&MCM5 (Confidence: 1, TimeStep: 1)
#> RBM14_5_Activator: RBM14 = CEP55&MCM5 (Confidence: 1, TimeStep: 1)
#> RBM14_1_Inhibitor: RBM14 = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> RBM14_2_Inhibitor: RBM14 = !DHX9 (Confidence: 1, TimeStep: 1)
#> RBM14_3_Inhibitor: RBM14 = !PTP4A1 (Confidence: 1, TimeStep: 1)
#> RBM14_4_Inhibitor: RBM14 = !FABP5 (Confidence: 1, TimeStep: 1)
#> RBM14_5_Inhibitor: RBM14 = !HSP90AB1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RBMS3 with decay value = 1:
#> RBMS3_1_Activator: RBMS3 = !PRPS2&!S100A11 (Confidence: 1, TimeStep: 1)
#> RBMS3_2_Activator: RBMS3 = DDIT4&SNORD3B-1 (Confidence: 1, TimeStep: 1)
#> RBMS3_3_Activator: RBMS3 = !E2F7&TMEM100 (Confidence: 1, TimeStep: 1)
#> RBMS3_4_Activator: RBMS3 = LILRB2&TMEM100 (Confidence: 1, TimeStep: 1)
#> RBMS3_5_Activator: RBMS3 = MIR6845&TMEM100 (Confidence: 1, TimeStep: 1)
#> RBMS3_1_Inhibitor: RBMS3 = !GSN (Confidence: 1, TimeStep: 1)
#> RBMS3_2_Inhibitor: RBMS3 = CENPV (Confidence: 1, TimeStep: 1)
#> RBMS3_3_Inhibitor: RBMS3 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> RBMS3_4_Inhibitor: RBMS3 = ECT2 (Confidence: 1, TimeStep: 1)
#> RBMS3_5_Inhibitor: RBMS3 = !ID3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RCC1 with decay value = 1:
#> RCC1_1_Activator: RCC1 = FOXM1 (Confidence: 1, TimeStep: 1)
#> RCC1_2_Activator: RCC1 = STIL (Confidence: 1, TimeStep: 1)
#> RCC1_3_Activator: RCC1 = ATAD2 (Confidence: 1, TimeStep: 1)
#> RCC1_4_Activator: RCC1 = BIRC5 (Confidence: 1, TimeStep: 1)
#> RCC1_5_Activator: RCC1 = BUB1 (Confidence: 1, TimeStep: 1)
#> RCC1_1_Inhibitor: RCC1 = IL18R1 (Confidence: 1, TimeStep: 1)
#> RCC1_2_Inhibitor: RCC1 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> RCC1_3_Inhibitor: RCC1 = PRDM1 (Confidence: 1, TimeStep: 1)
#> RCC1_4_Inhibitor: RCC1 = IL18RAP (Confidence: 1, TimeStep: 1)
#> RCC1_5_Inhibitor: RCC1 = LGALS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RFC3 with decay value = 1:
#> RFC3_1_Activator: RFC3 = CENPH (Confidence: 1, TimeStep: 1)
#> RFC3_2_Activator: RFC3 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> RFC3_3_Activator: RFC3 = ASF1B (Confidence: 1, TimeStep: 1)
#> RFC3_4_Activator: RFC3 = AURKA (Confidence: 1, TimeStep: 1)
#> RFC3_5_Activator: RFC3 = !BTG1 (Confidence: 1, TimeStep: 1)
#> RFC3_1_Inhibitor: RFC3 = !FH (Confidence: 1, TimeStep: 1)
#> RFC3_2_Inhibitor: RFC3 = !NUSAP1 (Confidence: 1, TimeStep: 1)
#> RFC3_3_Inhibitor: RFC3 = !RFC3 (Confidence: 1, TimeStep: 1)
#> RFC3_4_Inhibitor: RFC3 = !NUF2 (Confidence: 1, TimeStep: 1)
#> RFC3_5_Inhibitor: RFC3 = !KIF11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RHOBTB3 with decay value = 1:
#> RHOBTB3_1_Activator: RHOBTB3 = DEPDC1B (Confidence: 1, TimeStep: 1)
#> RHOBTB3_2_Activator: RHOBTB3 = PTTG1 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_3_Activator: RHOBTB3 = !TXNIP (Confidence: 1, TimeStep: 1)
#> RHOBTB3_4_Activator: RHOBTB3 = AURKB (Confidence: 1, TimeStep: 1)
#> RHOBTB3_5_Activator: RHOBTB3 = CKAP2 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_1_Inhibitor: RHOBTB3 = !BCAT1&EMP1 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_2_Inhibitor: RHOBTB3 = B3GNT2&F13A1 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_3_Inhibitor: RHOBTB3 = !CCR1&F13A1 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_4_Inhibitor: RHOBTB3 = BCAT1&F13A1 (Confidence: 1, TimeStep: 1)
#> RHOBTB3_5_Inhibitor: RHOBTB3 = !AURKB&EMP1&!RHOBTB3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RMI2 with decay value = 1:
#> RMI2_1_Activator: RMI2 = DFNA5&!P2RX5 (Confidence: 1, TimeStep: 1)
#> RMI2_2_Activator: RMI2 = E2F8&!P2RX5 (Confidence: 1, TimeStep: 1)
#> RMI2_3_Activator: RMI2 = CENPV&!P2RX5 (Confidence: 1, TimeStep: 1)
#> RMI2_4_Activator: RMI2 = !LILRB2&!P2RX5 (Confidence: 1, TimeStep: 1)
#> RMI2_5_Activator: RMI2 = !CD53&!P2RX5 (Confidence: 1, TimeStep: 1)
#> RMI2_1_Inhibitor: RMI2 = !FABP5 (Confidence: 1, TimeStep: 1)
#> RMI2_2_Inhibitor: RMI2 = IL18RAP (Confidence: 1, TimeStep: 1)
#> RMI2_3_Inhibitor: RMI2 = LGALS3 (Confidence: 1, TimeStep: 1)
#> RMI2_4_Inhibitor: RMI2 = RAB31 (Confidence: 1, TimeStep: 1)
#> RMI2_5_Inhibitor: RMI2 = !DFNA5&!DTL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RNASET2 with decay value = 1:
#> RNASET2_1_Activator: RNASET2 = LILRB2 (Confidence: 1, TimeStep: 1)
#> RNASET2_2_Activator: RNASET2 = RNASET2 (Confidence: 1, TimeStep: 1)
#> RNASET2_3_Activator: RNASET2 = !CENPV (Confidence: 1, TimeStep: 1)
#> RNASET2_4_Activator: RNASET2 = IRAK3 (Confidence: 1, TimeStep: 1)
#> RNASET2_5_Activator: RNASET2 = GSN (Confidence: 1, TimeStep: 1)
#> RNASET2_1_Inhibitor: RNASET2 = UBE2C (Confidence: 1, TimeStep: 1)
#> RNASET2_2_Inhibitor: RNASET2 = !CD53&!KIF26A (Confidence: 1, TimeStep: 1)
#> RNASET2_3_Inhibitor: RNASET2 = DFNA5&!GSN (Confidence: 1, TimeStep: 1)
#> RNASET2_4_Inhibitor: RNASET2 = DFNA5&!KIF26A (Confidence: 1, TimeStep: 1)
#> RNASET2_5_Inhibitor: RNASET2 = DTL&!GSN (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RPS6KA2 with decay value = 1:
#> RPS6KA2_1_Activator: RPS6KA2 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_2_Activator: RPS6KA2 = AKAP12&RBMS3 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_3_Activator: RPS6KA2 = ID3&!PRPS2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_4_Activator: RPS6KA2 = RBMS3&SERPINB9 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_5_Activator: RPS6KA2 = AKAP12&!PRPS2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_1_Inhibitor: RPS6KA2 = !AKAP12&!PFKFB2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_2_Inhibitor: RPS6KA2 = !GSN&!PFKFB2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_3_Inhibitor: RPS6KA2 = !MSH6&!PFKFB2 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_4_Inhibitor: RPS6KA2 = !LOC285097&S100A11 (Confidence: 1, TimeStep: 1)
#> RPS6KA2_5_Inhibitor: RPS6KA2 = !PFKFB2&S100A11 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for RRM2 with decay value = 1:
#> RRM2_1_Activator: RRM2 = CKAP2L (Confidence: 1, TimeStep: 1)
#> RRM2_2_Activator: RRM2 = KIF18B (Confidence: 1, TimeStep: 1)
#> RRM2_3_Activator: RRM2 = UBE2T (Confidence: 1, TimeStep: 1)
#> RRM2_4_Activator: RRM2 = ATAD2 (Confidence: 1, TimeStep: 1)
#> RRM2_5_Activator: RRM2 = AURKB (Confidence: 1, TimeStep: 1)
#> RRM2_1_Inhibitor: RRM2 = !RRM2 (Confidence: 1, TimeStep: 1)
#> RRM2_2_Inhibitor: RRM2 = !CENPW (Confidence: 1, TimeStep: 1)
#> RRM2_3_Inhibitor: RRM2 = !TCF19 (Confidence: 1, TimeStep: 1)
#> RRM2_4_Inhibitor: RRM2 = !WDR76 (Confidence: 1, TimeStep: 1)
#> RRM2_5_Inhibitor: RRM2 = !TK1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for S100A11 with decay value = 1:
#> S100A11_1_Activator: S100A11 = !WASF1 (Confidence: 1, TimeStep: 1)
#> S100A11_2_Activator: S100A11 = LILRA1 (Confidence: 1, TimeStep: 1)
#> S100A11_3_Activator: S100A11 = UBE2C (Confidence: 1, TimeStep: 1)
#> S100A11_4_Activator: S100A11 = FCER1G&!POU4F1 (Confidence: 1, TimeStep: 1)
#> S100A11_5_Activator: S100A11 = SLA&TUBA4A (Confidence: 1, TimeStep: 1)
#> S100A11_1_Inhibitor: S100A11 = !KIF26A&MSH6 (Confidence: 1, TimeStep: 1)
#> S100A11_2_Inhibitor: S100A11 = !HRK&MSH6 (Confidence: 1, TimeStep: 1)
#> S100A11_3_Inhibitor: S100A11 = !IL1B&MSH6 (Confidence: 1, TimeStep: 1)
#> S100A11_4_Inhibitor: S100A11 = !SIK1&!SLA (Confidence: 1, TimeStep: 1)
#> S100A11_5_Inhibitor: S100A11 = !HRK&!SNX10 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for S100A8 with decay value = 1:
#> S100A8_1_Activator: S100A8 = F13A1 (Confidence: 1, TimeStep: 1)
#> S100A8_2_Activator: S100A8 = !BCAT1&!KIF11 (Confidence: 1, TimeStep: 1)
#> S100A8_3_Activator: S100A8 = !BCAT1&S100A8 (Confidence: 1, TimeStep: 1)
#> S100A8_4_Activator: S100A8 = !BCAT1&LYZ (Confidence: 1, TimeStep: 1)
#> S100A8_5_Activator: S100A8 = !CCNB1&IGH (Confidence: 1, TimeStep: 1)
#> S100A8_1_Inhibitor: S100A8 = TMEM97 (Confidence: 1, TimeStep: 1)
#> S100A8_2_Inhibitor: S100A8 = WDHD1 (Confidence: 1, TimeStep: 1)
#> S100A8_3_Inhibitor: S100A8 = CENPH (Confidence: 1, TimeStep: 1)
#> S100A8_4_Inhibitor: S100A8 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> S100A8_5_Inhibitor: S100A8 = ASF1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SCML4 with decay value = 1:
#> SCML4_1_Activator: SCML4 = F13A1 (Confidence: 1, TimeStep: 1)
#> SCML4_2_Activator: SCML4 = MNDA (Confidence: 1, TimeStep: 1)
#> SCML4_3_Activator: SCML4 = !BRIP1&SCML4 (Confidence: 1, TimeStep: 1)
#> SCML4_4_Activator: SCML4 = !BUB1B&SCML4 (Confidence: 1, TimeStep: 1)
#> SCML4_5_Activator: SCML4 = !C4orf46&SCML4 (Confidence: 1, TimeStep: 1)
#> SCML4_1_Inhibitor: SCML4 = ECT2 (Confidence: 1, TimeStep: 1)
#> SCML4_2_Inhibitor: SCML4 = FOXM1 (Confidence: 1, TimeStep: 1)
#> SCML4_3_Inhibitor: SCML4 = STIL (Confidence: 1, TimeStep: 1)
#> SCML4_4_Inhibitor: SCML4 = ATAD2 (Confidence: 1, TimeStep: 1)
#> SCML4_5_Inhibitor: SCML4 = BIRC5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SELENOI with decay value = 1:
#> SELENOI_1_Activator: SELENOI = !TXNIP (Confidence: 1, TimeStep: 1)
#> SELENOI_2_Activator: SELENOI = CENPH (Confidence: 1, TimeStep: 1)
#> SELENOI_3_Activator: SELENOI = CKAP2 (Confidence: 1, TimeStep: 1)
#> SELENOI_4_Activator: SELENOI = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SELENOI_5_Activator: SELENOI = ASF1B (Confidence: 1, TimeStep: 1)
#> SELENOI_1_Inhibitor: SELENOI = !LOC100996643 (Confidence: 1, TimeStep: 1)
#> SELENOI_2_Inhibitor: SELENOI = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> SELENOI_3_Inhibitor: SELENOI = !BYSL (Confidence: 1, TimeStep: 1)
#> SELENOI_4_Inhibitor: SELENOI = !SELENOI (Confidence: 1, TimeStep: 1)
#> SELENOI_5_Inhibitor: SELENOI = FGD2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SEMA4D with decay value = 1:
#> SEMA4D_1_Activator: SEMA4D = SEMA4D (Confidence: 1, TimeStep: 1)
#> SEMA4D_2_Activator: SEMA4D = !B3GNT2&FGR (Confidence: 1, TimeStep: 1)
#> SEMA4D_3_Activator: SEMA4D = !C5orf24&!PTP4A1 (Confidence: 1, TimeStep: 1)
#> SEMA4D_4_Activator: SEMA4D = !DHX9&TNFSF8 (Confidence: 1, TimeStep: 1)
#> SEMA4D_5_Activator: SEMA4D = !FABP5&SLA (Confidence: 1, TimeStep: 1)
#> SEMA4D_1_Inhibitor: SEMA4D = !BIRC3&!HBG1 (Confidence: 1, TimeStep: 1)
#> SEMA4D_2_Inhibitor: SEMA4D = ABHD17B&ASPM (Confidence: 1, TimeStep: 1)
#> SEMA4D_3_Inhibitor: SEMA4D = RBM14&!TNFSF8 (Confidence: 1, TimeStep: 1)
#> SEMA4D_4_Inhibitor: SEMA4D = ABHD17B&KIF11 (Confidence: 1, TimeStep: 1)
#> SEMA4D_5_Inhibitor: SEMA4D = !BIRC3&PAICS (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SERPINA1 with decay value = 1:
#> SERPINA1_1_Activator: SERPINA1 = PPBP (Confidence: 1, TimeStep: 1)
#> SERPINA1_2_Activator: SERPINA1 = FGL2 (Confidence: 1, TimeStep: 1)
#> SERPINA1_3_Activator: SERPINA1 = !CCDC86&!PRPS2 (Confidence: 1, TimeStep: 1)
#> SERPINA1_4_Activator: SERPINA1 = !CCDC86&SERPINA1 (Confidence: 1, TimeStep: 1)
#> SERPINA1_5_Activator: SERPINA1 = !E2F7&FCGR3B (Confidence: 1, TimeStep: 1)
#> SERPINA1_1_Inhibitor: SERPINA1 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SERPINA1_2_Inhibitor: SERPINA1 = ASF1B (Confidence: 1, TimeStep: 1)
#> SERPINA1_3_Inhibitor: SERPINA1 = AURKA (Confidence: 1, TimeStep: 1)
#> SERPINA1_4_Inhibitor: SERPINA1 = !BTG1 (Confidence: 1, TimeStep: 1)
#> SERPINA1_5_Inhibitor: SERPINA1 = CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SERPINB9 with decay value = 1:
#> SERPINB9_1_Activator: SERPINB9 = SERPINB9 (Confidence: 1, TimeStep: 1)
#> SERPINB9_2_Activator: SERPINB9 = ITGAM (Confidence: 1, TimeStep: 1)
#> SERPINB9_3_Activator: SERPINB9 = CCR1 (Confidence: 1, TimeStep: 1)
#> SERPINB9_4_Activator: SERPINB9 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> SERPINB9_5_Activator: SERPINB9 = F13A1 (Confidence: 1, TimeStep: 1)
#> SERPINB9_1_Inhibitor: SERPINB9 = !LILRB2 (Confidence: 1, TimeStep: 1)
#> SERPINB9_2_Inhibitor: SERPINB9 = E2F7 (Confidence: 1, TimeStep: 1)
#> SERPINB9_3_Inhibitor: SERPINB9 = !SMAP2 (Confidence: 1, TimeStep: 1)
#> SERPINB9_4_Inhibitor: SERPINB9 = !TMEM2 (Confidence: 1, TimeStep: 1)
#> SERPINB9_5_Inhibitor: SERPINB9 = ANP32E (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SESN1 with decay value = 1:
#> SESN1_1_Activator: SESN1 = PPBP (Confidence: 1, TimeStep: 1)
#> SESN1_2_Activator: SESN1 = !CDC20&!LOC100505650 (Confidence: 1, TimeStep: 1)
#> SESN1_3_Activator: SESN1 = !ASPM&!ECT2 (Confidence: 1, TimeStep: 1)
#> SESN1_4_Activator: SESN1 = !ASPM&METTL7A (Confidence: 1, TimeStep: 1)
#> SESN1_5_Activator: SESN1 = !ASPM&!CENPK (Confidence: 1, TimeStep: 1)
#> SESN1_1_Inhibitor: SESN1 = CDT1&!FKBP5 (Confidence: 1, TimeStep: 1)
#> SESN1_2_Inhibitor: SESN1 = CRNDE&TENM4 (Confidence: 1, TimeStep: 1)
#> SESN1_3_Inhibitor: SESN1 = !DDIT4&LOC100505650 (Confidence: 1, TimeStep: 1)
#> SESN1_4_Inhibitor: SESN1 = !CCNB1&ECT2 (Confidence: 1, TimeStep: 1)
#> SESN1_5_Inhibitor: SESN1 = !CCNB1&!METTL7A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SHCBP1 with decay value = 1:
#> SHCBP1_1_Activator: SHCBP1 = CDK1 (Confidence: 1, TimeStep: 1)
#> SHCBP1_2_Activator: SHCBP1 = HMMR (Confidence: 1, TimeStep: 1)
#> SHCBP1_3_Activator: SHCBP1 = KIF14 (Confidence: 1, TimeStep: 1)
#> SHCBP1_4_Activator: SHCBP1 = KIF20A (Confidence: 1, TimeStep: 1)
#> SHCBP1_5_Activator: SHCBP1 = POLQ (Confidence: 1, TimeStep: 1)
#> SHCBP1_1_Inhibitor: SHCBP1 = !CDK1 (Confidence: 1, TimeStep: 1)
#> SHCBP1_2_Inhibitor: SHCBP1 = !HMMR (Confidence: 1, TimeStep: 1)
#> SHCBP1_3_Inhibitor: SHCBP1 = !KIF14 (Confidence: 1, TimeStep: 1)
#> SHCBP1_4_Inhibitor: SHCBP1 = !KIF20A (Confidence: 1, TimeStep: 1)
#> SHCBP1_5_Inhibitor: SHCBP1 = !POLQ (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SIK1 with decay value = 1:
#> SIK1_1_Activator: SIK1 = KIF26A (Confidence: 1, TimeStep: 1)
#> SIK1_2_Activator: SIK1 = MIR4683 (Confidence: 1, TimeStep: 1)
#> SIK1_3_Activator: SIK1 = CPM (Confidence: 1, TimeStep: 1)
#> SIK1_4_Activator: SIK1 = POU4F1 (Confidence: 1, TimeStep: 1)
#> SIK1_5_Activator: SIK1 = RPS6KA2 (Confidence: 1, TimeStep: 1)
#> SIK1_1_Inhibitor: SIK1 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> SIK1_2_Inhibitor: SIK1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> SIK1_3_Inhibitor: SIK1 = !METTL7A (Confidence: 1, TimeStep: 1)
#> SIK1_4_Inhibitor: SIK1 = SEMA4D (Confidence: 1, TimeStep: 1)
#> SIK1_5_Inhibitor: SIK1 = !WASF1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SKP2 with decay value = 1:
#> SKP2_1_Activator: SKP2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SKP2_2_Activator: SKP2 = ASF1B (Confidence: 1, TimeStep: 1)
#> SKP2_3_Activator: SKP2 = AURKA (Confidence: 1, TimeStep: 1)
#> SKP2_4_Activator: SKP2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> SKP2_5_Activator: SKP2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> SKP2_1_Inhibitor: SKP2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SKP2_2_Inhibitor: SKP2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> SKP2_3_Inhibitor: SKP2 = !AURKA (Confidence: 1, TimeStep: 1)
#> SKP2_4_Inhibitor: SKP2 = BTG1 (Confidence: 1, TimeStep: 1)
#> SKP2_5_Inhibitor: SKP2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SLA with decay value = 1:
#> SLA_1_Activator: SLA = !AKAP12 (Confidence: 1, TimeStep: 1)
#> SLA_2_Activator: SLA = !MSH6 (Confidence: 1, TimeStep: 1)
#> SLA_3_Activator: SLA = ITPKB (Confidence: 1, TimeStep: 1)
#> SLA_4_Activator: SLA = S100A11 (Confidence: 1, TimeStep: 1)
#> SLA_5_Activator: SLA = TNFSF8 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SLC22A23 with decay value = 1:
#> SLC22A23_1_Activator: SLC22A23 = UBE2C (Confidence: 1, TimeStep: 1)
#> SLC22A23_2_Activator: SLC22A23 = !SCML4&WFS1 (Confidence: 1, TimeStep: 1)
#> SLC22A23_3_Activator: SLC22A23 = !FCER1G&SLC22A23 (Confidence: 1, TimeStep: 1)
#> SLC22A23_4_Activator: SLC22A23 = !FCGR3B&SLC22A23 (Confidence: 1, TimeStep: 1)
#> SLC22A23_5_Activator: SLC22A23 = !FGD2&SLC22A23 (Confidence: 1, TimeStep: 1)
#> SLC22A23_1_Inhibitor: SLC22A23 = !CENPK&FGD2 (Confidence: 1, TimeStep: 1)
#> SLC22A23_2_Inhibitor: SLC22A23 = TMEM2&!WFS1 (Confidence: 1, TimeStep: 1)
#> SLC22A23_3_Inhibitor: SLC22A23 = !MIR8071-1&SERPINA1 (Confidence: 1, TimeStep: 1)
#> SLC22A23_4_Inhibitor: SLC22A23 = !SCML4&SERPINA1 (Confidence: 1, TimeStep: 1)
#> SLC22A23_5_Inhibitor: SLC22A23 = ECT2&MS4A1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SMAP2 with decay value = 1:
#> SMAP2_1_Activator: SMAP2 = !CENPU (Confidence: 1, TimeStep: 1)
#> SMAP2_2_Activator: SMAP2 = !HIST4H4 (Confidence: 1, TimeStep: 1)
#> SMAP2_3_Activator: SMAP2 = !CKS1B (Confidence: 1, TimeStep: 1)
#> SMAP2_4_Activator: SMAP2 = GIMAP4 (Confidence: 1, TimeStep: 1)
#> SMAP2_5_Activator: SMAP2 = LILRB2 (Confidence: 1, TimeStep: 1)
#> SMAP2_1_Inhibitor: SMAP2 = HIST4H4&!IFNGR1 (Confidence: 1, TimeStep: 1)
#> SMAP2_2_Inhibitor: SMAP2 = HIST4H4&!LILRB2 (Confidence: 1, TimeStep: 1)
#> SMAP2_3_Inhibitor: SMAP2 = HIST4H4&!MIR4683 (Confidence: 1, TimeStep: 1)
#> SMAP2_4_Inhibitor: SMAP2 = HIST4H4&!RNASET2 (Confidence: 1, TimeStep: 1)
#> SMAP2_5_Inhibitor: SMAP2 = ANP32E&HIST4H4 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SMC2 with decay value = 1:
#> SMC2_1_Activator: SMC2 = CENPH (Confidence: 1, TimeStep: 1)
#> SMC2_2_Activator: SMC2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SMC2_3_Activator: SMC2 = ASF1B (Confidence: 1, TimeStep: 1)
#> SMC2_4_Activator: SMC2 = AURKA (Confidence: 1, TimeStep: 1)
#> SMC2_5_Activator: SMC2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> SMC2_1_Inhibitor: SMC2 = !CENPH (Confidence: 1, TimeStep: 1)
#> SMC2_2_Inhibitor: SMC2 = !CDK1 (Confidence: 1, TimeStep: 1)
#> SMC2_3_Inhibitor: SMC2 = !HMMR (Confidence: 1, TimeStep: 1)
#> SMC2_4_Inhibitor: SMC2 = !KIF14 (Confidence: 1, TimeStep: 1)
#> SMC2_5_Inhibitor: SMC2 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SMIM3 with decay value = 1:
#> SMIM3_1_Activator: SMIM3 = GSN (Confidence: 1, TimeStep: 1)
#> SMIM3_2_Activator: SMIM3 = P2RY14 (Confidence: 1, TimeStep: 1)
#> SMIM3_3_Activator: SMIM3 = DDIT4 (Confidence: 1, TimeStep: 1)
#> SMIM3_4_Activator: SMIM3 = TBXA2R (Confidence: 1, TimeStep: 1)
#> SMIM3_5_Activator: SMIM3 = MIR4683 (Confidence: 1, TimeStep: 1)
#> SMIM3_1_Inhibitor: SMIM3 = BMF&E2F7 (Confidence: 1, TimeStep: 1)
#> SMIM3_2_Inhibitor: SMIM3 = !CENPU&DEPDC1B (Confidence: 1, TimeStep: 1)
#> SMIM3_3_Inhibitor: SMIM3 = !CEP55&DEPDC1B (Confidence: 1, TimeStep: 1)
#> SMIM3_4_Inhibitor: SMIM3 = !DEPDC1B&FOXM1 (Confidence: 1, TimeStep: 1)
#> SMIM3_5_Inhibitor: SMIM3 = !DEPDC1B&STIL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SNORA21 with decay value = 1:
#> SNORA21_1_Activator: SNORA21 = ELL2&!NEAT1 (Confidence: 1, TimeStep: 1)
#> SNORA21_2_Activator: SNORA21 = !CDC42EP3&LOC728175 (Confidence: 1, TimeStep: 1)
#> SNORA21_3_Activator: SNORA21 = ELL2&FH (Confidence: 1, TimeStep: 1)
#> SNORA21_4_Activator: SNORA21 = ELL2&PTTG1 (Confidence: 1, TimeStep: 1)
#> SNORA21_5_Activator: SNORA21 = ELL2&RFC3 (Confidence: 1, TimeStep: 1)
#> SNORA21_1_Inhibitor: SNORA21 = !CRNDE (Confidence: 1, TimeStep: 1)
#> SNORA21_2_Inhibitor: SNORA21 = CDC42EP3 (Confidence: 1, TimeStep: 1)
#> SNORA21_3_Inhibitor: SNORA21 = !CDC20&IRAK3 (Confidence: 1, TimeStep: 1)
#> SNORA21_4_Inhibitor: SNORA21 = IRAK3&!KIF4A (Confidence: 1, TimeStep: 1)
#> SNORA21_5_Inhibitor: SNORA21 = IRAK3&!SHCBP1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SNORD3B-1 with decay value = 1:
#> SNORD3B-1_1_Inhibitor: SNORD3B-1 = !RNASET2 (Confidence: 1, TimeStep: 1)
#> SNORD3B-1_2_Inhibitor: SNORD3B-1 = !CD53 (Confidence: 1, TimeStep: 1)
#> SNORD3B-1_3_Inhibitor: SNORD3B-1 = !P2RX5&!SNORD3B-1 (Confidence: 1, TimeStep: 1)
#> SNORD3B-1_4_Inhibitor: SNORD3B-1 = !P2RX5&!P2RY14 (Confidence: 1, TimeStep: 1)
#> SNORD3B-1_5_Inhibitor: SNORD3B-1 = !P2RX5&!TBXA2R (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SNTB2 with decay value = 1:
#> SNTB2_1_Activator: SNTB2 = !EMP1&SNTB2 (Confidence: 1, TimeStep: 1)
#> SNTB2_2_Activator: SNTB2 = !DDIT4&SNTB2 (Confidence: 1, TimeStep: 1)
#> SNTB2_3_Activator: SNTB2 = !P2RY14&SNTB2 (Confidence: 1, TimeStep: 1)
#> SNTB2_4_Activator: SNTB2 = CDK6&TCF19 (Confidence: 1, TimeStep: 1)
#> SNTB2_5_Activator: SNTB2 = KCNK12&!RBMS3 (Confidence: 1, TimeStep: 1)
#> SNTB2_1_Inhibitor: SNTB2 = !DDIT4&!HBB (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for SNX10 with decay value = 1:
#> SNX10_1_Activator: SNX10 = !BIRC3&SNX10 (Confidence: 1, TimeStep: 1)
#> SNX10_2_Activator: SNX10 = !BIRC3&!RCC1 (Confidence: 1, TimeStep: 1)
#> SNX10_3_Activator: SNX10 = MYRIP&!PRPS2 (Confidence: 1, TimeStep: 1)
#> SNX10_4_Activator: SNX10 = MYRIP&!RCC1 (Confidence: 1, TimeStep: 1)
#> SNX10_5_Activator: SNX10 = MYRIP&SNX10 (Confidence: 1, TimeStep: 1)
#> SNX10_1_Inhibitor: SNX10 = RCC1&!SNX10 (Confidence: 1, TimeStep: 1)
#> SNX10_2_Inhibitor: SNX10 = !ITPKB&LOC728175 (Confidence: 1, TimeStep: 1)
#> SNX10_3_Inhibitor: SNX10 = ARRDC3&!ZFP36L2 (Confidence: 1, TimeStep: 1)
#> SNX10_4_Inhibitor: SNX10 = !TARSL2&!ZFP36L2 (Confidence: 1, TimeStep: 1)
#> SNX10_5_Inhibitor: SNX10 = SNX10&!ZFP36L2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SNX29P2 with decay value = 1:
#> SNX29P2_1_Activator: SNX29P2 = DDIT4&KLF9 (Confidence: 1, TimeStep: 1)
#> SNX29P2_2_Activator: SNX29P2 = DDIT4&!RMI2 (Confidence: 1, TimeStep: 1)
#> SNX29P2_3_Activator: SNX29P2 = FABP5&!IGLL1 (Confidence: 1, TimeStep: 1)
#> SNX29P2_4_Activator: SNX29P2 = FABP5&SNX29P2 (Confidence: 1, TimeStep: 1)
#> SNX29P2_5_Activator: SNX29P2 = !HBG1&SNX29P2 (Confidence: 1, TimeStep: 1)
#> SNX29P2_1_Inhibitor: SNX29P2 = !KLF9&SHCBP1 (Confidence: 1, TimeStep: 1)
#> SNX29P2_2_Inhibitor: SNX29P2 = !KLF9&RFC3 (Confidence: 1, TimeStep: 1)
#> SNX29P2_3_Inhibitor: SNX29P2 = !CKAP2&KIF4A (Confidence: 1, TimeStep: 1)
#> SNX29P2_4_Inhibitor: SNX29P2 = !AURKB&KIF4A (Confidence: 1, TimeStep: 1)
#> SNX29P2_5_Inhibitor: SNX29P2 = BIRC3&DEPDC1B (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SOCS1 with decay value = 1:
#> SOCS1_1_Activator: SOCS1 = PPBP (Confidence: 1, TimeStep: 1)
#> SOCS1_2_Activator: SOCS1 = FGL2 (Confidence: 1, TimeStep: 1)
#> SOCS1_3_Activator: SOCS1 = MNDA (Confidence: 1, TimeStep: 1)
#> SOCS1_1_Inhibitor: SOCS1 = !SOCS1&!TXNIP (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SOS1 with decay value = 1:
#> SOS1_1_Activator: SOS1 = GBP4 (Confidence: 1, TimeStep: 1)
#> SOS1_2_Activator: SOS1 = LILRB2 (Confidence: 1, TimeStep: 1)
#> SOS1_3_Activator: SOS1 = !CENPV (Confidence: 1, TimeStep: 1)
#> SOS1_4_Activator: SOS1 = IRAK3 (Confidence: 1, TimeStep: 1)
#> SOS1_5_Activator: SOS1 = DENND3 (Confidence: 1, TimeStep: 1)
#> SOS1_1_Inhibitor: SOS1 = UBE2C (Confidence: 1, TimeStep: 1)
#> SOS1_2_Inhibitor: SOS1 = BCL2L11&!LY96 (Confidence: 1, TimeStep: 1)
#> SOS1_3_Inhibitor: SOS1 = CENPV&!LY96 (Confidence: 1, TimeStep: 1)
#> SOS1_4_Inhibitor: SOS1 = DEPDC1B&!LY96 (Confidence: 1, TimeStep: 1)
#> SOS1_5_Inhibitor: SOS1 = !GBP4&!LY96 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SQLE with decay value = 1:
#> SQLE_1_Activator: SQLE = CCNB2 (Confidence: 1, TimeStep: 1)
#> SQLE_2_Activator: SQLE = CDC45 (Confidence: 1, TimeStep: 1)
#> SQLE_3_Activator: SQLE = CENPA (Confidence: 1, TimeStep: 1)
#> SQLE_4_Activator: SQLE = DLGAP5 (Confidence: 1, TimeStep: 1)
#> SQLE_5_Activator: SQLE = MAD2L1 (Confidence: 1, TimeStep: 1)
#> SQLE_1_Inhibitor: SQLE = !BYSL (Confidence: 1, TimeStep: 1)
#> SQLE_2_Inhibitor: SQLE = P2RY14 (Confidence: 1, TimeStep: 1)
#> SQLE_3_Inhibitor: SQLE = !PAICS (Confidence: 1, TimeStep: 1)
#> SQLE_4_Inhibitor: SQLE = TBXA2R (Confidence: 1, TimeStep: 1)
#> SQLE_5_Inhibitor: SQLE = !TNFRSF21 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for STAB1 with decay value = 1:
#> STAB1_1_Activator: STAB1 = EPPK1 (Confidence: 1, TimeStep: 1)
#> STAB1_2_Activator: STAB1 = CDC42EP3&TBXA2R (Confidence: 1, TimeStep: 1)
#> STAB1_3_Activator: STAB1 = CDC42EP3&TARSL2 (Confidence: 1, TimeStep: 1)
#> STAB1_4_Activator: STAB1 = CRNDE&STAB1 (Confidence: 1, TimeStep: 1)
#> STAB1_5_Activator: STAB1 = !CLEC2B&MNDA (Confidence: 1, TimeStep: 1)
#> STAB1_1_Inhibitor: STAB1 = CRNDE&!WFS1 (Confidence: 1, TimeStep: 1)
#> STAB1_2_Inhibitor: STAB1 = !C4orf46&!IRAK3 (Confidence: 1, TimeStep: 1)
#> STAB1_3_Inhibitor: STAB1 = !CKS1B&!IRAK3 (Confidence: 1, TimeStep: 1)
#> STAB1_4_Inhibitor: STAB1 = !C4orf46&!LILRB2 (Confidence: 1, TimeStep: 1)
#> STAB1_5_Inhibitor: STAB1 = !C4orf46&!RNASET2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for STIL with decay value = 1:
#> STIL_1_Activator: STIL = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> STIL_2_Activator: STIL = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> STIL_3_Activator: STIL = !IFNGR1&MDK (Confidence: 1, TimeStep: 1)
#> STIL_4_Activator: STIL = !IL1B&MDK (Confidence: 1, TimeStep: 1)
#> STIL_5_Activator: STIL = !IRAK3&MDK (Confidence: 1, TimeStep: 1)
#> STIL_1_Inhibitor: STIL = !ATAD2 (Confidence: 1, TimeStep: 1)
#> STIL_2_Inhibitor: STIL = !BIRC5 (Confidence: 1, TimeStep: 1)
#> STIL_3_Inhibitor: STIL = !BUB1 (Confidence: 1, TimeStep: 1)
#> STIL_4_Inhibitor: STIL = !CCNA2 (Confidence: 1, TimeStep: 1)
#> STIL_5_Inhibitor: STIL = !CDCA5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for SUV39H2 with decay value = 1:
#> SUV39H2_1_Activator: SUV39H2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SUV39H2_2_Activator: SUV39H2 = ASF1B (Confidence: 1, TimeStep: 1)
#> SUV39H2_3_Activator: SUV39H2 = AURKA (Confidence: 1, TimeStep: 1)
#> SUV39H2_4_Activator: SUV39H2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> SUV39H2_5_Activator: SUV39H2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> SUV39H2_1_Inhibitor: SUV39H2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> SUV39H2_2_Inhibitor: SUV39H2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> SUV39H2_3_Inhibitor: SUV39H2 = !AURKA (Confidence: 1, TimeStep: 1)
#> SUV39H2_4_Inhibitor: SUV39H2 = BTG1 (Confidence: 1, TimeStep: 1)
#> SUV39H2_5_Inhibitor: SUV39H2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TARSL2 with decay value = 1:
#> TARSL2_1_Activator: TARSL2 = TBXA2R (Confidence: 1, TimeStep: 1)
#> TARSL2_2_Activator: TARSL2 = STAB1 (Confidence: 1, TimeStep: 1)
#> TARSL2_3_Activator: TARSL2 = F13A1 (Confidence: 1, TimeStep: 1)
#> TARSL2_4_Activator: TARSL2 = !BRIP1&TARSL2 (Confidence: 1, TimeStep: 1)
#> TARSL2_5_Activator: TARSL2 = !BUB1B&TARSL2 (Confidence: 1, TimeStep: 1)
#> TARSL2_1_Inhibitor: TARSL2 = !KIF2C&TTK (Confidence: 1, TimeStep: 1)
#> TARSL2_2_Inhibitor: TARSL2 = !CCNB1&CHEK1 (Confidence: 1, TimeStep: 1)
#> TARSL2_3_Inhibitor: TARSL2 = !CCNB1&FANCI (Confidence: 1, TimeStep: 1)
#> TARSL2_4_Inhibitor: TARSL2 = !CCNB1&FOXM1 (Confidence: 1, TimeStep: 1)
#> TARSL2_5_Inhibitor: TARSL2 = !CCNB1&STIL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TBXA2R with decay value = 1:
#> TBXA2R_1_Activator: TBXA2R = TBXA2R (Confidence: 1, TimeStep: 1)
#> TBXA2R_2_Activator: TBXA2R = F13A1 (Confidence: 1, TimeStep: 1)
#> TBXA2R_3_Activator: TBXA2R = RAB31 (Confidence: 1, TimeStep: 1)
#> TBXA2R_4_Activator: TBXA2R = !ANP32E&RASSF4 (Confidence: 1, TimeStep: 1)
#> TBXA2R_5_Activator: TBXA2R = !ASPM&IFNGR1 (Confidence: 1, TimeStep: 1)
#> TBXA2R_1_Inhibitor: TBXA2R = !LILRB2 (Confidence: 1, TimeStep: 1)
#> TBXA2R_2_Inhibitor: TBXA2R = ECT2 (Confidence: 1, TimeStep: 1)
#> TBXA2R_3_Inhibitor: TBXA2R = CCNB2 (Confidence: 1, TimeStep: 1)
#> TBXA2R_4_Inhibitor: TBXA2R = CDC45 (Confidence: 1, TimeStep: 1)
#> TBXA2R_5_Inhibitor: TBXA2R = CENPA (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TCF19 with decay value = 1:
#> TCF19_1_Activator: TCF19 = !P2RX5&PHF19 (Confidence: 1, TimeStep: 1)
#> TCF19_2_Activator: TCF19 = !P2RX5&POLE2 (Confidence: 1, TimeStep: 1)
#> TCF19_3_Activator: TCF19 = !P2RX5&TIPIN (Confidence: 1, TimeStep: 1)
#> TCF19_4_Activator: TCF19 = !P2RX5&TPX2 (Confidence: 1, TimeStep: 1)
#> TCF19_5_Activator: TCF19 = !P2RX5&UBE2T (Confidence: 1, TimeStep: 1)
#> TCF19_1_Inhibitor: TCF19 = !WDR76 (Confidence: 1, TimeStep: 1)
#> TCF19_2_Inhibitor: TCF19 = !E2F8 (Confidence: 1, TimeStep: 1)
#> TCF19_3_Inhibitor: TCF19 = !GINS2 (Confidence: 1, TimeStep: 1)
#> TCF19_4_Inhibitor: TCF19 = !DTL (Confidence: 1, TimeStep: 1)
#> TCF19_5_Inhibitor: TCF19 = !TOP2A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TENM4 with decay value = 1:
#> TENM4_1_Activator: TENM4 = AURKB&MDM2 (Confidence: 1, TimeStep: 1)
#> TENM4_2_Activator: TENM4 = AURKB&TENM4 (Confidence: 1, TimeStep: 1)
#> TENM4_3_Activator: TENM4 = CENPU&MDM2 (Confidence: 1, TimeStep: 1)
#> TENM4_4_Activator: TENM4 = CEP55&TENM4 (Confidence: 1, TimeStep: 1)
#> TENM4_5_Activator: TENM4 = CKAP2L&TENM4 (Confidence: 1, TimeStep: 1)
#> TENM4_1_Inhibitor: TENM4 = !TENM4 (Confidence: 1, TimeStep: 1)
#> TENM4_2_Inhibitor: TENM4 = !AURKB (Confidence: 1, TimeStep: 1)
#> TENM4_3_Inhibitor: TENM4 = !KIF18A (Confidence: 1, TimeStep: 1)
#> TENM4_4_Inhibitor: TENM4 = !OIP5 (Confidence: 1, TimeStep: 1)
#> TENM4_5_Inhibitor: TENM4 = !TRIP13 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TIMELESS with decay value = 1:
#> TIMELESS_1_Activator: TIMELESS = ANLN&MDK (Confidence: 1, TimeStep: 1)
#> TIMELESS_2_Activator: TIMELESS = BCAT1&MDK (Confidence: 1, TimeStep: 1)
#> TIMELESS_3_Activator: TIMELESS = !CD53&MDK (Confidence: 1, TimeStep: 1)
#> TIMELESS_4_Activator: TIMELESS = !ANP32E&BUB1B (Confidence: 1, TimeStep: 1)
#> TIMELESS_5_Activator: TIMELESS = !ANP32E&C4orf46 (Confidence: 1, TimeStep: 1)
#> TIMELESS_1_Inhibitor: TIMELESS = !CKS1B (Confidence: 1, TimeStep: 1)
#> TIMELESS_2_Inhibitor: TIMELESS = !TIMELESS (Confidence: 1, TimeStep: 1)
#> TIMELESS_3_Inhibitor: TIMELESS = !BRCA1 (Confidence: 1, TimeStep: 1)
#> TIMELESS_4_Inhibitor: TIMELESS = !MCM7 (Confidence: 1, TimeStep: 1)
#> TIMELESS_5_Inhibitor: TIMELESS = !BYSL (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TIPIN with decay value = 1:
#> TIPIN_1_Activator: TIPIN = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TIPIN_2_Activator: TIPIN = ASF1B (Confidence: 1, TimeStep: 1)
#> TIPIN_3_Activator: TIPIN = AURKA (Confidence: 1, TimeStep: 1)
#> TIPIN_4_Activator: TIPIN = !BTG1 (Confidence: 1, TimeStep: 1)
#> TIPIN_5_Activator: TIPIN = CCDC34 (Confidence: 1, TimeStep: 1)
#> TIPIN_1_Inhibitor: TIPIN = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TIPIN_2_Inhibitor: TIPIN = !ASF1B (Confidence: 1, TimeStep: 1)
#> TIPIN_3_Inhibitor: TIPIN = !AURKA (Confidence: 1, TimeStep: 1)
#> TIPIN_4_Inhibitor: TIPIN = BTG1 (Confidence: 1, TimeStep: 1)
#> TIPIN_5_Inhibitor: TIPIN = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TK1 with decay value = 1:
#> TK1_1_Activator: TK1 = CCNB1 (Confidence: 1, TimeStep: 1)
#> TK1_2_Activator: TK1 = IQGAP3 (Confidence: 1, TimeStep: 1)
#> TK1_3_Activator: TK1 = CDK1 (Confidence: 1, TimeStep: 1)
#> TK1_4_Activator: TK1 = CKAP2L (Confidence: 1, TimeStep: 1)
#> TK1_5_Activator: TK1 = HMMR (Confidence: 1, TimeStep: 1)
#> TK1_1_Inhibitor: TK1 = !CDC20 (Confidence: 1, TimeStep: 1)
#> TK1_2_Inhibitor: TK1 = !KIF4A (Confidence: 1, TimeStep: 1)
#> TK1_3_Inhibitor: TK1 = !CENPW (Confidence: 1, TimeStep: 1)
#> TK1_4_Inhibitor: TK1 = !DHFR (Confidence: 1, TimeStep: 1)
#> TK1_5_Inhibitor: TK1 = !RAD51 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TMEM100 with decay value = 1:
#> TMEM100_1_Activator: TMEM100 = !CDC42EP3&RBMS3 (Confidence: 1, TimeStep: 1)
#> TMEM100_2_Activator: TMEM100 = !CDC42EP3&TMEM100 (Confidence: 1, TimeStep: 1)
#> TMEM100_3_Activator: TMEM100 = DTL&TMEM100 (Confidence: 1, TimeStep: 1)
#> TMEM100_4_Activator: TMEM100 = !MDK&RFC3 (Confidence: 1, TimeStep: 1)
#> TMEM100_5_Activator: TMEM100 = !MDK&PTTG1 (Confidence: 1, TimeStep: 1)
#> TMEM100_1_Inhibitor: TMEM100 = !IGLL1 (Confidence: 1, TimeStep: 1)
#> TMEM100_2_Inhibitor: TMEM100 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> TMEM100_3_Inhibitor: TMEM100 = !DEPDC1B&!RBMS3 (Confidence: 1, TimeStep: 1)
#> TMEM100_4_Inhibitor: TMEM100 = !FH&!RBMS3 (Confidence: 1, TimeStep: 1)
#> TMEM100_5_Inhibitor: TMEM100 = GIMAP7&!RBMS3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TMEM2 with decay value = 1:
#> TMEM2_1_Activator: TMEM2 = LILRB2 (Confidence: 1, TimeStep: 1)
#> TMEM2_2_Activator: TMEM2 = !CENPV (Confidence: 1, TimeStep: 1)
#> TMEM2_3_Activator: TMEM2 = IRAK3 (Confidence: 1, TimeStep: 1)
#> TMEM2_4_Activator: TMEM2 = GSN (Confidence: 1, TimeStep: 1)
#> TMEM2_5_Activator: TMEM2 = AKAP12 (Confidence: 1, TimeStep: 1)
#> TMEM2_1_Inhibitor: TMEM2 = !METTL7A (Confidence: 1, TimeStep: 1)
#> TMEM2_2_Inhibitor: TMEM2 = UBE2C (Confidence: 1, TimeStep: 1)
#> TMEM2_3_Inhibitor: TMEM2 = !AKAP12&!LILRB2 (Confidence: 1, TimeStep: 1)
#> TMEM2_4_Inhibitor: TMEM2 = !AKAP12&!IL6ST (Confidence: 1, TimeStep: 1)
#> TMEM2_5_Inhibitor: TMEM2 = !AKAP12&!KLF9 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TMEM97 with decay value = 1:
#> TMEM97_1_Activator: TMEM97 = CENPH (Confidence: 1, TimeStep: 1)
#> TMEM97_2_Activator: TMEM97 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TMEM97_3_Activator: TMEM97 = ASF1B (Confidence: 1, TimeStep: 1)
#> TMEM97_4_Activator: TMEM97 = AURKA (Confidence: 1, TimeStep: 1)
#> TMEM97_5_Activator: TMEM97 = !BTG1 (Confidence: 1, TimeStep: 1)
#> TMEM97_1_Inhibitor: TMEM97 = !CENPH (Confidence: 1, TimeStep: 1)
#> TMEM97_2_Inhibitor: TMEM97 = !CDK1 (Confidence: 1, TimeStep: 1)
#> TMEM97_3_Inhibitor: TMEM97 = !HMMR (Confidence: 1, TimeStep: 1)
#> TMEM97_4_Inhibitor: TMEM97 = !KIF14 (Confidence: 1, TimeStep: 1)
#> TMEM97_5_Inhibitor: TMEM97 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TNFRSF21 with decay value = 1:
#> TNFRSF21_1_Activator: TNFRSF21 = BYSL&!RASSF4 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_2_Activator: TNFRSF21 = DTL&!STAB1 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_3_Activator: TNFRSF21 = BRCA1&!STAB1 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_4_Activator: TNFRSF21 = CKS1B&!STAB1 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_5_Activator: TNFRSF21 = GINS2&!STAB1 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_1_Inhibitor: TNFRSF21 = LILRA1 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_2_Inhibitor: TNFRSF21 = !ANP32E&!TNFRSF21 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_3_Inhibitor: TNFRSF21 = !FH&!TNFRSF21 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_4_Inhibitor: TNFRSF21 = !DHFR&!TNFRSF21 (Confidence: 1, TimeStep: 1)
#> TNFRSF21_5_Inhibitor: TNFRSF21 = HBB&RNASET2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TNFSF8 with decay value = 1:
#> TNFSF8_1_Activator: TNFSF8 = TNFSF8 (Confidence: 1, TimeStep: 1)
#> TNFSF8_2_Activator: TNFSF8 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> TNFSF8_3_Activator: TNFSF8 = !RAG1 (Confidence: 1, TimeStep: 1)
#> TNFSF8_4_Activator: TNFSF8 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> TNFSF8_5_Activator: TNFSF8 = SEMA4D (Confidence: 1, TimeStep: 1)
#> TNFSF8_1_Inhibitor: TNFSF8 = !SNX10 (Confidence: 1, TimeStep: 1)
#> TNFSF8_2_Inhibitor: TNFSF8 = LOC728175 (Confidence: 1, TimeStep: 1)
#> TNFSF8_3_Inhibitor: TNFSF8 = LOC100996643&!TNFSF8 (Confidence: 1, TimeStep: 1)
#> TNFSF8_4_Inhibitor: TNFSF8 = !BIRC3&MYRIP (Confidence: 1, TimeStep: 1)
#> TNFSF8_5_Inhibitor: TNFSF8 = LOC100996643&TMEM2 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TOP2A with decay value = 1:
#> TOP2A_1_Activator: TOP2A = CENPF (Confidence: 1, TimeStep: 1)
#> TOP2A_2_Activator: TOP2A = DEPDC1B (Confidence: 1, TimeStep: 1)
#> TOP2A_3_Activator: TOP2A = NEK2 (Confidence: 1, TimeStep: 1)
#> TOP2A_4_Activator: TOP2A = CDK1 (Confidence: 1, TimeStep: 1)
#> TOP2A_5_Activator: TOP2A = CKAP2L (Confidence: 1, TimeStep: 1)
#> TOP2A_1_Inhibitor: TOP2A = !E2F8 (Confidence: 1, TimeStep: 1)
#> TOP2A_2_Inhibitor: TOP2A = !TYMS (Confidence: 1, TimeStep: 1)
#> TOP2A_3_Inhibitor: TOP2A = PPP1R16B (Confidence: 1, TimeStep: 1)
#> TOP2A_4_Inhibitor: TOP2A = !PTP4A1 (Confidence: 1, TimeStep: 1)
#> TOP2A_5_Inhibitor: TOP2A = !FABP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TPX2 with decay value = 1:
#> TPX2_1_Activator: TPX2 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TPX2_2_Activator: TPX2 = ASF1B (Confidence: 1, TimeStep: 1)
#> TPX2_3_Activator: TPX2 = AURKA (Confidence: 1, TimeStep: 1)
#> TPX2_4_Activator: TPX2 = !BTG1 (Confidence: 1, TimeStep: 1)
#> TPX2_5_Activator: TPX2 = CCDC34 (Confidence: 1, TimeStep: 1)
#> TPX2_1_Inhibitor: TPX2 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TPX2_2_Inhibitor: TPX2 = !ASF1B (Confidence: 1, TimeStep: 1)
#> TPX2_3_Inhibitor: TPX2 = !AURKA (Confidence: 1, TimeStep: 1)
#> TPX2_4_Inhibitor: TPX2 = BTG1 (Confidence: 1, TimeStep: 1)
#> TPX2_5_Inhibitor: TPX2 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TRIB1 with decay value = 1:
#> TRIB1_1_Activator: TRIB1 = !ABHD17B (Confidence: 1, TimeStep: 1)
#> TRIB1_2_Activator: TRIB1 = IL18RAP (Confidence: 1, TimeStep: 1)
#> TRIB1_3_Activator: TRIB1 = LOC728175 (Confidence: 1, TimeStep: 1)
#> TRIB1_4_Activator: TRIB1 = SCML4&TRIB1 (Confidence: 1, TimeStep: 1)
#> TRIB1_5_Activator: TRIB1 = IL6ST&!PRPS2 (Confidence: 1, TimeStep: 1)
#> TRIB1_1_Inhibitor: TRIB1 = PRPS2&!TRIB1 (Confidence: 1, TimeStep: 1)
#> TRIB1_2_Inhibitor: TRIB1 = !IL18R1&!TRIB1 (Confidence: 1, TimeStep: 1)
#> TRIB1_3_Inhibitor: TRIB1 = CENPV&!TRIB1 (Confidence: 1, TimeStep: 1)
#> TRIB1_4_Inhibitor: TRIB1 = !IL6ST&!TRIB1 (Confidence: 1, TimeStep: 1)
#> TRIB1_5_Inhibitor: TRIB1 = !TMEM2&!TRIB1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TRIP13 with decay value = 1:
#> TRIP13_1_Activator: TRIP13 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TRIP13_2_Activator: TRIP13 = ASF1B (Confidence: 1, TimeStep: 1)
#> TRIP13_3_Activator: TRIP13 = AURKA (Confidence: 1, TimeStep: 1)
#> TRIP13_4_Activator: TRIP13 = !BTG1 (Confidence: 1, TimeStep: 1)
#> TRIP13_5_Activator: TRIP13 = CCDC34 (Confidence: 1, TimeStep: 1)
#> TRIP13_1_Inhibitor: TRIP13 = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> TRIP13_2_Inhibitor: TRIP13 = !ASF1B (Confidence: 1, TimeStep: 1)
#> TRIP13_3_Inhibitor: TRIP13 = !AURKA (Confidence: 1, TimeStep: 1)
#> TRIP13_4_Inhibitor: TRIP13 = BTG1 (Confidence: 1, TimeStep: 1)
#> TRIP13_5_Inhibitor: TRIP13 = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TTK with decay value = 1:
#> TTK_1_Activator: TTK = KIF2C (Confidence: 1, TimeStep: 1)
#> TTK_2_Activator: TTK = ATAD2 (Confidence: 1, TimeStep: 1)
#> TTK_3_Activator: TTK = BIRC5 (Confidence: 1, TimeStep: 1)
#> TTK_4_Activator: TTK = BUB1 (Confidence: 1, TimeStep: 1)
#> TTK_5_Activator: TTK = CCNA2 (Confidence: 1, TimeStep: 1)
#> TTK_1_Inhibitor: TTK = !KIF2C (Confidence: 1, TimeStep: 1)
#> TTK_2_Inhibitor: TTK = !CCNB2 (Confidence: 1, TimeStep: 1)
#> TTK_3_Inhibitor: TTK = !CDC45 (Confidence: 1, TimeStep: 1)
#> TTK_4_Inhibitor: TTK = !CENPA (Confidence: 1, TimeStep: 1)
#> TTK_5_Inhibitor: TTK = !DLGAP5 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TUBA4A with decay value = 1:
#> TUBA4A_1_Activator: TUBA4A = TUBA4A (Confidence: 1, TimeStep: 1)
#> TUBA4A_2_Activator: TUBA4A = STAB1 (Confidence: 1, TimeStep: 1)
#> TUBA4A_3_Activator: TUBA4A = !LILRB2&SMIM3 (Confidence: 1, TimeStep: 1)
#> TUBA4A_4_Activator: TUBA4A = GBP4&P2RY14&!TENM4 (Confidence: 1, TimeStep: 1)
#> TUBA4A_5_Activator: TUBA4A = !DENND3&!LOC100505650&SMIM3 (Confidence: 1, TimeStep: 1)
#> TUBA4A_1_Inhibitor: TUBA4A = LOC100505650 (Confidence: 1, TimeStep: 1)
#> TUBA4A_2_Inhibitor: TUBA4A = BCL10 (Confidence: 1, TimeStep: 1)
#> TUBA4A_3_Inhibitor: TUBA4A = ASPM&!TUBA4A (Confidence: 1, TimeStep: 1)
#> TUBA4A_4_Inhibitor: TUBA4A = NUF2&!TUBA4A (Confidence: 1, TimeStep: 1)
#> TUBA4A_5_Inhibitor: TUBA4A = HELLS&!TUBA4A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TXNIP with decay value = 1:
#> TXNIP_1_Activator: TXNIP = !CKAP2 (Confidence: 1, TimeStep: 1)
#> TXNIP_2_Activator: TXNIP = TXNIP (Confidence: 1, TimeStep: 1)
#> TXNIP_3_Activator: TXNIP = !CENPU (Confidence: 1, TimeStep: 1)
#> TXNIP_4_Activator: TXNIP = !HIST4H4 (Confidence: 1, TimeStep: 1)
#> TXNIP_5_Activator: TXNIP = NEAT1 (Confidence: 1, TimeStep: 1)
#> TXNIP_1_Inhibitor: TXNIP = ANP32E&MDK (Confidence: 1, TimeStep: 1)
#> TXNIP_2_Inhibitor: TXNIP = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> TXNIP_3_Inhibitor: TXNIP = CENPV&MDK (Confidence: 1, TimeStep: 1)
#> TXNIP_4_Inhibitor: TXNIP = E2F7&MDK (Confidence: 1, TimeStep: 1)
#> TXNIP_5_Inhibitor: TXNIP = ECT2&MDK (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for TYMS with decay value = 1:
#> TYMS_1_Activator: TYMS = WDR76 (Confidence: 1, TimeStep: 1)
#> TYMS_2_Activator: TYMS = MKI67 (Confidence: 1, TimeStep: 1)
#> TYMS_3_Activator: TYMS = ZWINT (Confidence: 1, TimeStep: 1)
#> TYMS_4_Activator: TYMS = ANLN (Confidence: 1, TimeStep: 1)
#> TYMS_5_Activator: TYMS = BRIP1 (Confidence: 1, TimeStep: 1)
#> TYMS_1_Inhibitor: TYMS = !TYMS (Confidence: 1, TimeStep: 1)
#> TYMS_2_Inhibitor: TYMS = PRDM1 (Confidence: 1, TimeStep: 1)
#> TYMS_3_Inhibitor: TYMS = LGALS3 (Confidence: 1, TimeStep: 1)
#> TYMS_4_Inhibitor: TYMS = RAB31 (Confidence: 1, TimeStep: 1)
#> TYMS_5_Inhibitor: TYMS = !ANLN&BIRC3 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for UBE2C with decay value = 1:
#> UBE2C_1_Activator: UBE2C = UBE2C (Confidence: 1, TimeStep: 1)
#> UBE2C_2_Activator: UBE2C = !AKAP12&APITD1-CORT (Confidence: 1, TimeStep: 1)
#> UBE2C_3_Activator: UBE2C = !AKAP12&ASF1B (Confidence: 1, TimeStep: 1)
#> UBE2C_4_Activator: UBE2C = !AKAP12&AURKA (Confidence: 1, TimeStep: 1)
#> UBE2C_5_Activator: UBE2C = !AKAP12&AURKB (Confidence: 1, TimeStep: 1)
#> UBE2C_1_Inhibitor: UBE2C = !UBE2C (Confidence: 1, TimeStep: 1)
#> UBE2C_2_Inhibitor: UBE2C = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> UBE2C_3_Inhibitor: UBE2C = !ASF1B (Confidence: 1, TimeStep: 1)
#> UBE2C_4_Inhibitor: UBE2C = !AURKA (Confidence: 1, TimeStep: 1)
#> UBE2C_5_Inhibitor: UBE2C = BTG1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for UBE2T with decay value = 1:
#> UBE2T_1_Activator: UBE2T = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> UBE2T_2_Activator: UBE2T = ASF1B (Confidence: 1, TimeStep: 1)
#> UBE2T_3_Activator: UBE2T = AURKA (Confidence: 1, TimeStep: 1)
#> UBE2T_4_Activator: UBE2T = !BTG1 (Confidence: 1, TimeStep: 1)
#> UBE2T_5_Activator: UBE2T = CCDC34 (Confidence: 1, TimeStep: 1)
#> UBE2T_1_Inhibitor: UBE2T = !APITD1-CORT (Confidence: 1, TimeStep: 1)
#> UBE2T_2_Inhibitor: UBE2T = !ASF1B (Confidence: 1, TimeStep: 1)
#> UBE2T_3_Inhibitor: UBE2T = !AURKA (Confidence: 1, TimeStep: 1)
#> UBE2T_4_Inhibitor: UBE2T = BTG1 (Confidence: 1, TimeStep: 1)
#> UBE2T_5_Inhibitor: UBE2T = !CCDC34 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for WASF1 with decay value = 1:
#> WASF1_1_Activator: WASF1 = P2RX5 (Confidence: 1, TimeStep: 1)
#> WASF1_2_Activator: WASF1 = !HBG1&WASF1 (Confidence: 1, TimeStep: 1)
#> WASF1_3_Activator: WASF1 = !HBB&WASF1 (Confidence: 1, TimeStep: 1)
#> WASF1_4_Activator: WASF1 = !IGH&WASF1 (Confidence: 1, TimeStep: 1)
#> WASF1_5_Activator: WASF1 = !F13A1&!S100A11 (Confidence: 1, TimeStep: 1)
#> WASF1_1_Inhibitor: WASF1 = !WASF1 (Confidence: 1, TimeStep: 1)
#> WASF1_2_Inhibitor: WASF1 = FCGR3B&HBG1 (Confidence: 1, TimeStep: 1)
#> WASF1_3_Inhibitor: WASF1 = FCGR3B&!IL1B (Confidence: 1, TimeStep: 1)
#> WASF1_4_Inhibitor: WASF1 = FCGR3B&ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> WASF1_5_Inhibitor: WASF1 = ITGB2-AS1&!SNORA21 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for WDHD1 with decay value = 1:
#> WDHD1_1_Activator: WDHD1 = !CD53&MDK (Confidence: 1, TimeStep: 1)
#> WDHD1_2_Activator: WDHD1 = CENPK&MDK (Confidence: 1, TimeStep: 1)
#> WDHD1_3_Activator: WDHD1 = !IGH&MDK (Confidence: 1, TimeStep: 1)
#> WDHD1_4_Activator: WDHD1 = !IGLC1&MDK (Confidence: 1, TimeStep: 1)
#> WDHD1_5_Activator: WDHD1 = !BMF&MDK (Confidence: 1, TimeStep: 1)
#> WDHD1_1_Inhibitor: WDHD1 = !CENPH (Confidence: 1, TimeStep: 1)
#> WDHD1_2_Inhibitor: WDHD1 = !CDK1 (Confidence: 1, TimeStep: 1)
#> WDHD1_3_Inhibitor: WDHD1 = !HMMR (Confidence: 1, TimeStep: 1)
#> WDHD1_4_Inhibitor: WDHD1 = !KIF14 (Confidence: 1, TimeStep: 1)
#> WDHD1_5_Inhibitor: WDHD1 = !KIF20A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for WDR76 with decay value = 1:
#> WDR76_1_Activator: WDR76 = CENPH (Confidence: 1, TimeStep: 1)
#> WDR76_2_Activator: WDR76 = APITD1-CORT (Confidence: 1, TimeStep: 1)
#> WDR76_3_Activator: WDR76 = ASF1B (Confidence: 1, TimeStep: 1)
#> WDR76_4_Activator: WDR76 = AURKA (Confidence: 1, TimeStep: 1)
#> WDR76_5_Activator: WDR76 = !BTG1 (Confidence: 1, TimeStep: 1)
#> WDR76_1_Inhibitor: WDR76 = !IQGAP3 (Confidence: 1, TimeStep: 1)
#> WDR76_2_Inhibitor: WDR76 = !ANLN (Confidence: 1, TimeStep: 1)
#> WDR76_3_Inhibitor: WDR76 = !PRR11 (Confidence: 1, TimeStep: 1)
#> WDR76_4_Inhibitor: WDR76 = !CDC20 (Confidence: 1, TimeStep: 1)
#> WDR76_5_Inhibitor: WDR76 = !KIF4A (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for WFS1 with decay value = 1:
#> WFS1_1_Activator: WFS1 = PDE4B&PTP4A1 (Confidence: 1, TimeStep: 1)
#> WFS1_2_Activator: WFS1 = !SERPINA1&WFS1 (Confidence: 1, TimeStep: 1)
#> WFS1_3_Activator: WFS1 = ARPP21&WFS1 (Confidence: 1, TimeStep: 1)
#> WFS1_4_Activator: WFS1 = !HBG1&PDE4B (Confidence: 1, TimeStep: 1)
#> WFS1_5_Activator: WFS1 = PDE4B&WFS1 (Confidence: 1, TimeStep: 1)
#> WFS1_1_Inhibitor: WFS1 = ITGB2-AS1 (Confidence: 1, TimeStep: 1)
#> WFS1_2_Inhibitor: WFS1 = LOC100130872 (Confidence: 1, TimeStep: 1)
#> WFS1_3_Inhibitor: WFS1 = LILRA1 (Confidence: 1, TimeStep: 1)
#> WFS1_4_Inhibitor: WFS1 = !KIF26A&!WFS1 (Confidence: 1, TimeStep: 1)
#> WFS1_5_Inhibitor: WFS1 = !IL1B&!WFS1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ZBTB16 with decay value = 1:
#> ZBTB16_1_Activator: ZBTB16 = LILRA1 (Confidence: 1, TimeStep: 1)
#> ZBTB16_2_Activator: ZBTB16 = !CCR1&ZBTB16 (Confidence: 1, TimeStep: 1)
#> ZBTB16_3_Activator: ZBTB16 = !GSN&LILRB2 (Confidence: 1, TimeStep: 1)
#> ZBTB16_4_Activator: ZBTB16 = !GSN&SERPINB9 (Confidence: 1, TimeStep: 1)
#> ZBTB16_5_Activator: ZBTB16 = !GSN&ZBTB16 (Confidence: 1, TimeStep: 1)
#> ZBTB16_1_Inhibitor: ZBTB16 = !LILRB2&!ZBTB16 (Confidence: 1, TimeStep: 1)
#> ZBTB16_2_Inhibitor: ZBTB16 = !RBMS3&SNORA21 (Confidence: 1, TimeStep: 1)
#> ZBTB16_3_Inhibitor: ZBTB16 = DFNA5&!ZBTB16 (Confidence: 1, TimeStep: 1)
#> ZBTB16_4_Inhibitor: ZBTB16 = !GBP4&SNORA21 (Confidence: 1, TimeStep: 1)
#> ZBTB16_5_Inhibitor: ZBTB16 = !GBP4&!ZBTB16 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ZFP36L2 with decay value = 1:
#> ZFP36L2_1_Activator: ZFP36L2 = ZFP36L2 (Confidence: 1, TimeStep: 1)
#> ZFP36L2_2_Activator: ZFP36L2 = TXNIP (Confidence: 1, TimeStep: 1)
#> ZFP36L2_3_Activator: ZFP36L2 = LEF1 (Confidence: 1, TimeStep: 1)
#> ZFP36L2_4_Activator: ZFP36L2 = !HIST4H4 (Confidence: 1, TimeStep: 1)
#> ZFP36L2_5_Activator: ZFP36L2 = !MTHFD2 (Confidence: 1, TimeStep: 1)
#> ZFP36L2_1_Inhibitor: ZFP36L2 = CKAP2 (Confidence: 1, TimeStep: 2)
#> ZFP36L2_2_Inhibitor: ZFP36L2 = !TXNIP (Confidence: 1, TimeStep: 2)
#> ZFP36L2_3_Inhibitor: ZFP36L2 = !ZFP36L2 (Confidence: 1, TimeStep: 2)
#> 
#> Multiple Transition Functions for ZNF367 with decay value = 1:
#> ZNF367_1_Activator: ZNF367 = MDK&MKI67 (Confidence: 1, TimeStep: 1)
#> ZNF367_2_Activator: ZNF367 = MDK&NCAPG (Confidence: 1, TimeStep: 1)
#> ZNF367_3_Activator: ZNF367 = MDK&NEK2 (Confidence: 1, TimeStep: 1)
#> ZNF367_4_Activator: ZNF367 = MDK&NUSAP1 (Confidence: 1, TimeStep: 1)
#> ZNF367_5_Activator: ZNF367 = MDK&POLQ (Confidence: 1, TimeStep: 1)
#> ZNF367_1_Inhibitor: ZNF367 = !CKS1B (Confidence: 1, TimeStep: 1)
#> ZNF367_2_Inhibitor: ZNF367 = !TIMELESS (Confidence: 1, TimeStep: 1)
#> ZNF367_3_Inhibitor: ZNF367 = !BRCA1 (Confidence: 1, TimeStep: 1)
#> ZNF367_4_Inhibitor: ZNF367 = !MCM7 (Confidence: 1, TimeStep: 1)
#> ZNF367_5_Inhibitor: ZNF367 = !RAD51AP1 (Confidence: 1, TimeStep: 1)
#> 
#> Multiple Transition Functions for ZWINT with decay value = 1:
#> ZWINT_1_Activator: ZWINT = KIF2C (Confidence: 1, TimeStep: 1)
#> ZWINT_2_Activator: ZWINT = ATAD2 (Confidence: 1, TimeStep: 1)
#> ZWINT_3_Activator: ZWINT = BIRC5 (Confidence: 1, TimeStep: 1)
#> ZWINT_4_Activator: ZWINT = BUB1 (Confidence: 1, TimeStep: 1)
#> ZWINT_5_Activator: ZWINT = CCNA2 (Confidence: 1, TimeStep: 1)
#> ZWINT_1_Inhibitor: ZWINT = !KIF2C (Confidence: 1, TimeStep: 1)
#> ZWINT_2_Inhibitor: ZWINT = !CCNB2 (Confidence: 1, TimeStep: 1)
#> ZWINT_3_Inhibitor: ZWINT = !CDC45 (Confidence: 1, TimeStep: 1)
#> ZWINT_4_Inhibitor: ZWINT = !CENPA (Confidence: 1, TimeStep: 1)
#> ZWINT_5_Inhibitor: ZWINT = !DLGAP5 (Confidence: 1, TimeStep: 1)