Entry |
|
Symbol |
HIF1A
|
Name |
(RefSeq) hypoxia-inducible factor 1-alpha
|
KO |
K08268 | hypoxia-inducible factor 1 alpha |
|
Organism |
pyu Puma yagouaroundi (jaguarundi)
|
Pathway |
pyu04919 | Thyroid hormone signaling pathway |
pyu05167 | Kaposi sarcoma-associated herpesvirus infection |
pyu05208 | Chemical carcinogenesis - reactive oxygen species |
pyu05230 | Central carbon metabolism in cancer |
pyu05235 | PD-L1 expression and PD-1 checkpoint pathway in cancer |
|
Brite |
KEGG Orthology (KO) [BR:pyu00001]
09130 Environmental Information Processing
09132 Signal transduction
04066 HIF-1 signaling pathway
121031872 (HIF1A)
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
121031872 (HIF1A)
04137 Mitophagy - animal
121031872 (HIF1A)
04148 Efferocytosis
121031872 (HIF1A)
09150 Organismal Systems
09151 Immune system
04659 Th17 cell differentiation
121031872 (HIF1A)
09152 Endocrine system
04919 Thyroid hormone signaling pathway
121031872 (HIF1A)
09160 Human Diseases
09161 Cancer: overview
05200 Pathways in cancer
121031872 (HIF1A)
05205 Proteoglycans in cancer
121031872 (HIF1A)
05208 Chemical carcinogenesis - reactive oxygen species
121031872 (HIF1A)
05230 Central carbon metabolism in cancer
121031872 (HIF1A)
05231 Choline metabolism in cancer
121031872 (HIF1A)
05235 PD-L1 expression and PD-1 checkpoint pathway in cancer
121031872 (HIF1A)
09162 Cancer: specific types
05211 Renal cell carcinoma
121031872 (HIF1A)
09172 Infectious disease: viral
05167 Kaposi sarcoma-associated herpesvirus infection
121031872 (HIF1A)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03000 Transcription factors [BR:pyu03000]
121031872 (HIF1A)
Transcription factors [BR:pyu03000]
Eukaryotic type
Basic helix-loop-helix (bHLH)
Factors with PAS domain
121031872 (HIF1A)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
Unknown
|
AA seq |
824 aa
MEGAGGANDKKKISSERRKEKSRDAARSRRSKESEVFYELAHQLPLPHNVSSHLDKASVM
RLTISYLRVRKLLDAGDLDIEDEMKAQMNCFYLKALDGFVMVLTDDGDMIYISDNVNKYM
GLTQFELTGHSVFDFTHPCDHEEMREMLTHRNGLVKKGKEQNTQRSFFLRMKCTLTSRGR
TMNIKSATWKVLHCTGHIHVYDTNSNQSQCGYKKPPMTCLVLICEPIPHPSNIEIPLDSK
TFLSRHSLDMKFSYCDERITELMGYEPEELLGRSIYEYYHALDSDHLTKTHHDMFTKGQV
TTGQYRMLAKRGGYVWVETQATVIYNTKNSQPQCIVCVNYVVSGIIQHDLIFSLQQTECV
LKPVESSDMKMTQLFTKVESEDTSSLFDKLKKEPDALTLLAPAAGDTIISLDFGSNDTET
DDQQLEEVPLYNDVMLPSSNEKLQNINLAMSPLPASETPKPLRSSADPALNQEVVLKLEP
NPESLELSFTMPQIQDQPASPSDGSTRQSSPEPTSPSEYCFDVDSDMVNEFKLELVEKLF
AEDTEAKNPFSTQDTDLDLEMLAPYIPMDDDFQLRSFDQLSPLESSSTSPQSVGTITVFQ
PAQMQEEPPVTTTSTTATTDELKTVTKDGIEDIKILIASPSPTHVPKVTTGATTSLYGDT
GSRTPSPNRAGKGVIEQTEKSHPRSPNVLSVTLSQRTTIPEEELNPKILALQNAQRKRKI
EHDGSLFQAVGIGTLLQQPDDRATTTSLSWKRVKGCKSSEQNGMEQKTIILIPSDLACRL
LGQSMDESGLPQLTSYDCEVNAPVQGSRNLLQGEELLRALDQVN |
NT seq |
2475 nt +upstreamnt +downstreamnt
atggagggcgccggcggcgcgaacgacaagaaaaagataagttctgaacgtcgaaaagaa
aagtctagagatgcagcgagatctcggcgaagtaaagaatctgaagttttctatgaactt
gctcatcagttgccacttccccataatgtgagctcacatctcgataaggcttctgttatg
aggctcaccatcagctatttgcgtgtgaggaaacttctggatgctggtgatttagatatt
gaagatgaaatgaaggcacagatgaattgcttttatttgaaagccttggatggttttgtt
atggttctcacagatgatggtgacatgatctacatttctgataatgtgaacaagtacatg
ggattaactcagtttgaactaactggacacagtgtgtttgattttactcatccatgtgac
catgaagaaatgagagaaatgcttacacatagaaatggccttgtgaagaagggtaaagag
cagaatacacagcgaagcttttttctcagaatgaagtgtaccctaactagccgagggaga
accatgaacataaagtcagcaacgtggaaagtacttcactgcacaggccatattcatgtc
tacgataccaatagtaaccaatctcagtgtgggtataagaaaccacccatgacgtgcttg
gtgctgatttgtgaacccattcctcatccatcaaatattgaaattcctttagatagcaag
acttttctgagtcgtcatagtctggatatgaaattttcttattgtgatgaaagaattact
gaattgatgggatacgagccagaggaacttttgggccgctcgatatatgaatattaccac
gctttggactctgaccatctgaccaaaactcatcatgacatgtttactaaaggccaagtc
accacaggacagtacaggatgcttgccaaaagaggtggatatgtctgggttgaaactcaa
gcgaccgtcatatataacactaagaactctcaaccacagtgcattgtatgtgtaaattac
gttgtgagtggtattattcagcacgacttgattttctcccttcaacaaacagaatgtgtc
ctcaaaccagttgaatcttcagatatgaaaatgactcagctgttcaccaaagttgaatca
gaagacacaagtagtctgtttgataaacttaagaaggaacctgatgctttaactttgctg
gcaccagctgctggagacacaatcatatctttagatttcggcagcaatgacacagaaact
gatgaccagcaacttgaggaagttccattgtataatgatgtaatgcttccctcatccaat
gaaaaattacagaacataaatttggcaatgtctccattacctgcttctgaaactccaaag
ccacttcgaagtagtgctgaccctgcactcaatcaagaagttgtactaaaattagagcca
aatccagaatcactggaactttcttttactatgccccagattcaagatcagccagctagt
ccttctgatggaagcactagacagagttcacctgagcctaccagtcccagtgaatattgt
tttgatgtggatagtgatatggtcaatgaatttaagctggaattggtagagaaacttttt
gctgaagacacagaagccaagaatccattttccacccaggacactgatttagacttggag
atgttagctccttacatcccaatggatgatgacttccagttacggtcctttgatcagttg
tcgccactggaaagcagttctacaagccctcaaagcgtgggcacaattacagtattccag
ccggctcaaatgcaggaggaacctcctgttaccactaccagtaccactgccaccactgat
gaattaaaaacagtgacaaaagatggtatagaagacattaaaatactgattgcatctcca
tctcctacccatgtacccaaagtaactactggtgccacaacatcactgtatggtgatact
ggaagtcggacaccctcaccaaacagagcaggaaaaggagtcatagaacagacagaaaaa
tctcatccaagaagccctaatgtgttgtctgtcactttgagtcaaagaactaccattcct
gaagaagaactaaatccaaagatactagctttgcagaatgctcagagaaagcgaaaaata
gaacatgacggttcactttttcaagcagtaggaattggaacattattacagcagccagat
gatcgtgcaactactacatcactttcttggaaacgcgtaaaaggatgcaaatctagtgag
cagaatggaatggagcaaaagacaattattttaataccctctgatttagcatgtagactg
ctggggcaatcaatggatgagagtggattaccacaactgaccagttatgattgtgaagtt
aatgctcctgtacaaggcagcagaaacctactgcagggtgaagaattactcagagctttg
gatcaagttaactga |