|
Regulation of gene expression in late stage (branching morphogenesis) pancreatic bud precursor cells
|
|
|
- ATOH5
- BHLHA7
- BHLHB39
- CBP
- CG1
- CREBBP
- CXorf6
- EP300
- GCN5
- GCN5L2
- HES1
- HL
- HNF1B
- HNF6
- HNF6A
- HRY
- IGKJRB
- IGKJRB1
- KAT2A
- KAT2B
- KIAA0200
- KIAA1816
- KIAA1819
- MAML1
- MAML2
- MAML3
- MAMLD1
- NEUROG3
- NGN3
- NOTCH1
- ONECUT1
- ONECUT3
- P300
- PCAF
- RBPJ
- RBPJK
- RBPSUH
- SKIIP
- SKIP
- SNW1
- TAN1
- TCF2
|
|
|
Reduction of cytosolic Ca++ levels
|
|
|
- ATP2A1
- ATP2A2
- ATP2A3
- ATP2B
- ATP2B1
- ATP2B2
- ATP2B3
- ATP2B4
- CALM
- CALM1
- CAM
- CAM1
- CNC
- KIAA1087
- MXRA1
- NCX1
- NCX2
- NCX3
- PMCA1
- PMCA2
- SLC8A1
- SLC8A2
- SLC8A3
- SRI
|
|
|
Pre-NOTCH Processing in Golgi
|
|
|
- ATP2A1
- ATP2A2
- ATP2A3
- ATP2B
- B4GALT1
- CGS23
- FUR
- FURIN
- GGTB2
- INT3
- LFNG
- MFNG
- NANTA3
- NOTCH1
- NOTCH2
- NOTCH3
- NOTCH4
- PACE
- PCSK3
- RAB6
- RAB6A
- RFNG
- RNP24
- SEL1L
- SIAT10
- SIAT4C
- SIAT6
- ST3GAL3
- ST3GAL4
- ST3GAL6
- STZ
- TAN1
- TMED2
- TSA305
|
|
|
Formation of ATP by chemiosmotic coupling
|
- ATP synthase F(0) complex subunit B1, mitochondrial
- ATP synthase F(0) complex subunit C1, mitochondrial
- ATP synthase F(0) complex subunit C2, mitochondrial
- ATP synthase F(0) complex subunit C3, mitochondrial
- ATP synthase protein 8
- ATP synthase subunit O, mitochondrial
- ATP synthase subunit a
- ATP synthase subunit alpha, mitochondrial
- ATP synthase subunit beta, mitochondrial
- ATP synthase subunit d, mitochondrial
- ATP synthase subunit delta, mitochondrial
- ATP synthase subunit e, mitochondrial
- ATP synthase subunit epsilon, mitochondrial
- ATP synthase subunit f, mitochondrial
- ATP synthase subunit g, mitochondrial
- ATP synthase subunit gamma, mitochondrial
- ATP synthase subunit s, mitochondrial
- ATP synthase-coupling factor 6, mitochondrial
|
|
- ATP5A
- ATP5A1
- ATP5AL2
- ATP5B
- ATP5C
- ATP5C1
- ATP5CL1
- ATP5D
- ATP5E
- ATP5F1
- ATP5F1A
- ATP5F1B
- ATP5F1C
- ATP5F1D
- ATP5F1E
- ATP5G1
- ATP5G2
- ATP5G3
- ATP5H
- ATP5I
- ATP5J
- ATP5J2
- ATP5JL
- ATP5K
- ATP5L
- ATP5MC1
- ATP5MC2
- ATP5MC3
- ATP5ME
- ATP5MF
- ATP5MG
- ATP5O
- ATP5PB
- ATP5PD
- ATP5PF
- ATP5PO
- ATP5S
- ATP6
- ATP8
- ATPASE6
- ATPASE8
- ATPM
- ATPMB
- ATPO
- ATPSB
- ATPW
- DMAC2L
- MT-ATP6
- MT-ATP8
- MTATP6
- MTATP8
|
|
|
Insulin receptor recycling
|
|
|
- ATP6A1
- ATP6AP1
- ATP6B1
- ATP6B2
- ATP6C
- ATP6D
- ATP6E
- ATP6E1
- ATP6E2
- ATP6EL2
- ATP6F
- ATP6G
- ATP6G1
- ATP6G2
- ATP6G3
- ATP6H
- ATP6IP1
- ATP6J
- ATP6L
- ATP6M
- ATP6N1
- ATP6N1A
- ATP6N1B
- ATP6N1C
- ATP6N2
- ATP6S1
- ATP6S14
- ATP6V0A1
- ATP6V0A2
- ATP6V0A3
- ATP6V0A4
- ATP6V0B
- ATP6V0C
- ATP6V0D1
- ATP6V0D2
- ATP6V0E
- ATP6V0E1
- ATP6V0E2
- ATP6V0E2L
- ATP6V1A
- ATP6V1A1
- ATP6V1B1
- ATP6V1B2
- ATP6V1C1
- ATP6V1C2
- ATP6V1D
- ATP6V1E1
- ATP6V1E2
- ATP6V1EL2
- ATP6V1F
- ATP6V1G1
- ATP6V1G2
- ATP6V1G3
- ATP6V1H
- ATPL
- C7orf32
- CPSD
- CTSD
- IDE
- INS
- INSR
- LAR
- NG38
- PTP1B
- PTPN1
- PTPRF
- TCIRG1
- VATB
- VATC
- VATD
- VATF
- VATPS1
- VPATPD
- VPP1
- VPP2
- VPP3
- XAP3
|
|
|
Transferrin endocytosis and recycling
|
|
|
- ATP6A1
- ATP6AP1
- ATP6B1
- ATP6B2
- ATP6C
- ATP6D
- ATP6E
- ATP6E1
- ATP6E2
- ATP6EL2
- ATP6F
- ATP6G
- ATP6G1
- ATP6G2
- ATP6G3
- ATP6H
- ATP6IP1
- ATP6J
- ATP6L
- ATP6M
- ATP6N1
- ATP6N1A
- ATP6N1B
- ATP6N1C
- ATP6N2
- ATP6S1
- ATP6S14
- ATP6V0A1
- ATP6V0A2
- ATP6V0A3
- ATP6V0A4
- ATP6V0B
- ATP6V0C
- ATP6V0D1
- ATP6V0D2
- ATP6V0E
- ATP6V0E1
- ATP6V0E2
- ATP6V0E2L
- ATP6V1A
- ATP6V1A1
- ATP6V1B1
- ATP6V1B2
- ATP6V1C1
- ATP6V1C2
- ATP6V1D
- ATP6V1E1
- ATP6V1E2
- ATP6V1EL2
- ATP6V1F
- ATP6V1G1
- ATP6V1G2
- ATP6V1G3
- ATP6V1H
- ATPL
- C7orf32
- HFE
- HLAH
- MCOLN1
- ML4
- NG38
- STAMP2
- STEAP3
- STEAP4
- TCIRG1
- TF
- TFR2
- TFRC
- TNFAIP9
- TRPML1
- TSAP6
- VATB
- VATC
- VATD
- VATF
- VATPS1
- VPATPD
- VPP1
- VPP2
- VPP3
- XAP3
|
|
|
Ion channel transport
|
|
|
- ATP6A1
- ATP6AP1
- ATP6B1
- ATP6B2
- ATP6C
- ATP6D
- ATP6E
- ATP6E1
- ATP6E2
- ATP6EL2
- ATP6F
- ATP6G
- ATP6G1
- ATP6G2
- ATP6G3
- ATP6H
- ATP6IP1
- ATP6J
- ATP6L
- ATP6M
- ATP6N1
- ATP6N1A
- ATP6N1B
- ATP6N1C
- ATP6N2
- ATP6S1
- ATP6S14
- ATP6V0A1
- ATP6V0A2
- ATP6V0A3
- ATP6V0A4
- ATP6V0B
- ATP6V0C
- ATP6V0D1
- ATP6V0D2
- ATP6V0E
- ATP6V0E1
- ATP6V0E2
- ATP6V0E2L
- ATP6V1A
- ATP6V1A1
- ATP6V1B1
- ATP6V1B2
- ATP6V1C1
- ATP6V1C2
- ATP6V1D
- ATP6V1E1
- ATP6V1E2
- ATP6V1EL2
- ATP6V1F
- ATP6V1G1
- ATP6V1G2
- ATP6V1G3
- ATP6V1H
- ATPL
- C7orf32
- NG38
- TCIRG1
- VATB
- VATC
- VATD
- VATF
- VATPS1
- VPATPD
- VPP1
- VPP2
- VPP3
- XAP3
|
|
|
ROS and RNS production in phagocytes
|
|
|
- ATP6A1
- ATP6B1
- ATP6B2
- ATP6C
- ATP6D
- ATP6E
- ATP6E1
- ATP6E2
- ATP6EL2
- ATP6F
- ATP6G
- ATP6G1
- ATP6G2
- ATP6G3
- ATP6H
- ATP6J
- ATP6L
- ATP6M
- ATP6N1
- ATP6N1A
- ATP6N1B
- ATP6N1C
- ATP6N2
- ATP6S14
- ATP6V0A1
- ATP6V0A2
- ATP6V0A3
- ATP6V0A4
- ATP6V0B
- ATP6V0C
- ATP6V0D1
- ATP6V0D2
- ATP6V0E
- ATP6V0E1
- ATP6V0E2
- ATP6V0E2L
- ATP6V1A
- ATP6V1A1
- ATP6V1B1
- ATP6V1B2
- ATP6V1C1
- ATP6V1C2
- ATP6V1D
- ATP6V1E1
- ATP6V1E2
- ATP6V1EL2
- ATP6V1F
- ATP6V1G1
- ATP6V1G2
- ATP6V1G3
- ATP6V1H
- ATPL
- C7orf32
- CYBA
- CYBB
- HVCN1
- LSH
- NCF1
- NCF2
- NCF4
- NG38
- NOS1
- NOS2
- NOS2A
- NOS3
- NOX2
- NOXA2
- NOXO2
- NRAMP
- NRAMP1
- P67PHOX
- RAC2
- SH3PXD1A
- SH3PXD4
- SLC11A1
- TCIRG1
- VATB
- VATC
- VATD
- VATF
- VPATPD
- VPP1
- VPP2
- VPP3
- VSOP
|
|
|
Amino acids regulate mTORC1
|
|
|
- ATP6A1
- ATP6B1
- ATP6B2
- ATP6C
- ATP6D
- ATP6E
- ATP6E1
- ATP6E2
- ATP6EL2
- ATP6F
- ATP6G
- ATP6G1
- ATP6G2
- ATP6G3
- ATP6H
- ATP6J
- ATP6L
- ATP6M
- ATP6N1C
- ATP6S14
- ATP6V0A3
- ATP6V0B
- ATP6V0C
- ATP6V0D1
- ATP6V0D2
- ATP6V0E
- ATP6V0E1
- ATP6V0E2
- ATP6V0E2L
- ATP6V1A
- ATP6V1A1
- ATP6V1B1
- ATP6V1B2
- ATP6V1C1
- ATP6V1C2
- ATP6V1D
- ATP6V1E1
- ATP6V1E2
- ATP6V1EL2
- ATP6V1F
- ATP6V1G1
- ATP6V1G2
- ATP6V1G3
- ATP6V1H
- ATPL
- BHD
- BMT2
- BOG25
- C11orf59
- C12orf66
- C16orf21
- C16orf35
- C1orf84
- C7orf32
- C7orf59
- C7orf60
- CASTOR1
- CASTOR2
- CGTHBA
- D3S1231E
- DEPDC5
- EHB10
- FLCN
- FNIP1
- FNIP2
- FNIPL
- FRAP
- FRAP1
- FRAP2
- GATSL1
- GATSL2
- GATSL3
- GBL
- HBXIP
- Hi95
- ITFG2
- KIAA0467
- KIAA0645
- KIAA1303
- KIAA1450
- KIAA1923
- KIAA1961
- KICS2
- KPTN
- LAMTOR1
- LAMTOR2
- LAMTOR3
- LAMTOR4
- LAMTOR5
- LST8
- MAP2K1IP1
- MAPBPIP
- MAPKSP1
- MAPO1
- MARE
- MIOS
- MLST8
- MTOR
- NG38
- NPRL2
- NPRL3
- PA26
- PDRO
- RAFT1
- RAPT1
- RAPTOR
- RHEB
- RHEB2
- ROBLD3
- RPTOR
- RRAGA
- RRAGB
- RRAGC
- RRAGD
- SAMTOR
- SEC13
- SEC13A
- SEC13L
- SEC13L1
- SEC13R
- SEH1
- SEH1L
- SESN1
- SESN2
- SEST1
- SEST2
- SH3BP4
- SLC38A9
- SZT2
- TCIRG1
- TTP
- TUSC4
- URLC11
- VATB
- VATC
- VATD
- VATF
- VPATPD
- VPP2
- VPP3
- WDR24
- WDR59
- XIP
|
|
|
Blockage of phagosome acidification
|
|
|
|
|
|
Synthesis of diphthamide-EEF2
|
|
|
- ATPBD4
- C9orf112
- DESR1
- DNAJC24
- DPH1
- DPH2
- DPH2L
- DPH2L1
- DPH2L2
- DPH3
- DPH4
- DPH5
- DPH6
- DPH7
- EEF2
- EF2
- OVCA1
- WDR85
- ZCSL2
- ZCSL3
|
|
|
Transport and synthesis of PAPS
|
|
|
- ATPSK1
- ATPSK2
- C6orf196
- DTD
- DTDST
- PAPSS
- PAPSS1
- PAPSS2
- PAPST1
- PAPST2
- SAT1
- SLC26A1
- SLC26A2
- SLC35B2
- SLC35B3
|
|
|
Metabolism of ingested H2SeO4 and H2SeO3 into H2Se
|
|
|
- ATPSK1
- ATPSK2
- GRIM12
- KDRF
- PAPSS
- PAPSS1
- PAPSS2
- TXNRD1
|
|
|
Defective PAPSS2 causes SEMD-PA
|
|
|
|
|
|
Defective Inhibition of DNA Recombination at Telomere Due to DAXX Mutations
|
|
|
- ATRX
- BING2
- DAP6
- DAXX
- RAD54L
- XH2
|
|
|
Defective Inhibition of DNA Recombination at Telomere Due to ATRX Mutations
|
|
|
- ATRX
- BING2
- DAP6
- DAXX
- RAD54L
- XH2
|
|
|
Kinesins
|
|
|
- ATSV
- C20orf23
- C2orf20
- C6orf102
- CENPE
- EG5
- GAKIN
- HSET
- KIAA0359
- KIAA0449
- KIAA0591
- KIAA0639
- KIAA0706
- KIAA1236
- KIAA1448
- KIAA1478
- KIAA1590
- KIAA1708
- KID
- KIF11
- KIF12
- KIF13B
- KIF15
- KIF16B
- KIF18A
- KIF18B
- KIF19
- KIF1A
- KIF1B
- KIF1C
- KIF2
- KIF20A
- KIF20B
- KIF21A
- KIF21B
- KIF22
- KIF23
- KIF25
- KIF26A
- KIF26B
- KIF27
- KIF28P
- KIF2A
- KIF2B
- KIF2C
- KIF3
- KIF3A
- KIF3AP
- KIF3B
- KIF3C
- KIF4
- KIF4A
- KIF4B
- KIF5A
- KIF5B
- KIF5C
- KIF6
- KIF9
- KIFAP3
- KIFC1
- KIFC2
- KLC
- KLC1
- KLC2
- KLC2L
- KLC3
- KLC4
- KLP2
- KLP6
- KNS
- KNS1
- KNS2
- KNSL1
- KNSL2
- KNSL3
- KNSL4
- KNSL5
- KNSL6
- KNSL7
- KNSL8
- KRMP1
- MGCRACGAP
- MKLP1
- MKLP2
- MPHOSPH1
- NKHC1
- RAB6KIFL
- RACGAP1
- SMAP
- SNX23
- TRIP5
|
|
|
Josephin domain DUBs
|
|
|
- ATX3
- ATX3L
- ATXN3
- ATXN3L
- HEL-220
- HEL-S-70
- JOSD1
- JOSD2
- JSPH1
- KIAA0063
- MJD
- MJD1
- MJDL
- PARK2
- PRKN
- RAD23A
- RAD23B
- RPS27A
- SCA3
- UBA52
- UBA80
- UBB
- UBC
- UBCEP1
- UBCEP2
- VCP
|
|
|
Tight junction interactions
|
|
|
- AWAL
- C7orf1
- CEPTRL2
- CIPP
- CLD1
- CLDN1
- CLDN10
- CLDN11
- CLDN12
- CLDN14
- CLDN15
- CLDN16
- CLDN17
- CLDN18
- CLDN19
- CLDN2
- CLDN20
- CLDN22
- CLDN23
- CLDN3
- CLDN4
- CLDN5
- CLDN6
- CLDN7
- CLDN8
- CLDN9
- CPER
- CPETR1
- CPETR2
- CPETRL2
- CRB3
- DXS1179E
- E
- F11R
- INADL
- JAM1
- JCAM
- MPP5
- OSP
- OTM
- PALS1
- PAR3
- PAR3A
- PAR6A
- PAR6B
- PAR6G
- PARD3
- PARD6A
- PARD6B
- PARD6G
- PATJ
- PCLN1
- PRKCI
- SEMP1
- TMVCF
- WBSCR8
|
|
|
The retinoid cycle in cones (daylight vision)
|
|
|
- AWAT2
- BCP
- CRALBP
- DC4
- DGAT2L4
- DHRS3
- GCP
- MFAT
- OPN1LW
- OPN1MW
- OPN1SW
- RBP3
- RCP
- RDH17
- RLBP1
- SDR16C1
- WS
|
|
|
Degradation of AXIN
|
|
|
- AXIN
- AXIN1
- AXIN2
- C7orf76
- DSS1
- HC2
- HC3
- HC8
- HC9
- HSPC
- IFI5111
- KIAA0072
- KIAA0077
- KIAA0107
- LMP10
- LMP2
- LMP7
- LMPX
- LMPY
- MB1
- MCB1
- MECL1
- MIP224
- MOV34L
- MSS1
- NU
- PARP5A
- PARP5B
- PARPL
- PFAAP4
- POH1
- PROS26
- PROS27
- PROS30
- PSC2
- PSC3
- PSC5
- PSC8
- PSC9
- PSMA1
- PSMA2
- PSMA3
- PSMA4
- PSMA5
- PSMA6
- PSMA7
- PSMA7L
- PSMA8
- PSMB1
- PSMB10
- PSMB11
- PSMB2
- PSMB3
- PSMB4
- PSMB5
- PSMB5i
- PSMB6
- PSMB6i
- PSMB7
- PSMB8
- PSMB9
- PSMC1
- PSMC2
- PSMC3
- PSMC4
- PSMC5
- PSMC6
- PSMD1
- PSMD10
- PSMD11
- PSMD12
- PSMD13
- PSMD14
- PSMD2
- PSMD3
- PSMD4
- PSMD5
- PSMD6
- PSMD7
- PSMD8
- PSMD9
- PSME1
- PSME2
- PSME3
- PSME4
- PSMF1
- RING10
- RING12
- RNF146
- RPS27A
- SEM1
- SHFDG1
- SHFM1
- SMURF2
- SUG1
- SUG2
- TANK2
- TBP1
- TBP7
- TIN1
- TINF1
- TNKL
- TNKS
- TNKS1
- TNKS2
- TRAP2
- UBA52
- UBA80
- UBB
- UBC
- UBCEP1
- UBCEP2
- X
- Y
- Y2
- Z
|
|
|
TCF dependent signaling in response to WNT
|
|
|
- AXIN
- AXIN1
- AXIN2
- CTNNB
- CTNNB1
- DKK1
- DKK2
- DKK4
- DVL1
- DVL2
- DVL3
- FRP
- FRP1
- FRP2
- FZD1
- FZD2
- INT1
- INT4
- JTK5A
- KIAA0208
- KIAA0570
- KIAA0729
- KREMEN
- KREMEN1
- KREMEN2
- KRM1
- KRM2
- LR3
- LRP5
- LRP6
- LRP7
- PARP5A
- PARP5B
- PARPL
- RNF146
- RPS27A
- RYK
- SARP1
- SARP2
- SFRP1
- SFRP2
- SOST
- TANK2
- TIN1
- TINF1
- TNKL
- TNKS
- TNKS1
- TNKS2
- UBA52
- UBA80
- UBB
- UBC
- UBCEP1
- UBCEP2
- USP34
- WIF1
- WNT1
- WNT14
- WNT3
- WNT3A
- WNT4
- WNT5A
- WNT8A
- WNT8B
- WNT8D
- WNT9A
|
|
|
Removal of aminoterminal propeptides from gamma-carboxylated proteins
|
|
|
- AXLLG
- BGLAP
- F10
- F2
- F7
- F9
- FUR
- FURIN
- GAS6
- PACE
- PCSK3
- PROC
- PROS
- PROS1
- PROZ
|
|
|
Gamma-carboxylation of protein precursors
|
|
|
- AXLLG
- BGLAP
- F10
- F2
- F7
- F9
- GAS6
- GC
- GGCX
- PROC
- PROS
- PROS1
- PROZ
|
|
|
Transport of gamma-carboxylated protein precursors from the endoplasmic reticulum to the Golgi apparatus
|
|
|
- AXLLG
- BGLAP
- F10
- F2
- F7
- F9
- GAS6
- PROC
- PROS
- PROS1
- PROZ
|
|
Homo sapiens (human)
