Identifiers
hypoxia inducible factor 1, alpha subunit (basic helix-loop-helix transcription factor)
HUGO:HIF1A, HGNC:4910, ENTREZ:3091, GENECARDS:GC14P062162, UNIPROT:Q16665

Maps_Modules
HMC:ACTIVATING_INVASION_AND_METASTASIS
 EMT Senescence   / EMT_REGULATORS 
 EMT Senescence   / SENESCENCE 

References
http://www.omicsonline.org/1948-5956/JCST-03-035.php
HIF-1 is the Commander of Gateways to Cancer
PMID:16887934
PMID:9159130
HIF-1B (ARNT) is constitutively expressed and itsmRNA and protein are maintained at constant levels regardless of oxygen availability
PMID:9278421
HIF-1A protein has a short half-life (t1/2 = 5 min) and is highly regulated by oxygen
PMID:9746763
The transcription and synthesis of HIF-1B are constitutive and seem not to be affected by oxygen.
PMID:7539918
In normoxia, the HIF-1A proteins are rapidly degraded, resulting in essentially no detectable HIF-1A protein.
PMID:8943284
During hypoxia, HIF-1A becomes stabilized and translocates from the cytoplasm to the nucleus, where it dimerizes with HIF-1B and the HIF complex formed becomes transcriptionally active
PMID:1823643
The activated HIF complex then associates with HREs in the regulatory regions of target genes and binds the transcriptional coactivators to induce gene expression.
PMID:15451019
Tight regulation of the stability and subsequent transactivational function of HIF-1A is chiefly controlled by its post-translation modifications, such as hydroxylation, ubiquitination, acetylation, and phosphorylation
The modification of HIF-1A occurs within several domains.
PMID:10403805
PMID:11566883
PMID:12829734
In normoxia, hydroxylation of 2 proline residues and acetylation of a lysine residue in its ODDD promote interaction of HIF-1A with the von Hippel-Lindau (pVHL) ubiquitin E3 ligase complex (Srinivas et al., 1999; Masson et al., 2001).
PMID:12080085
pVHL complex tags HIF-1A with ubiquitin and thereby marks it for degradation by the 26S proteasome.
In addition, hydroxylation of an asparagine residue in the C-TAD inhibits the association of HIF-1A with CBP/p300 and thus inhibits its transcriptional activity (Lando et al., 2002a).

References
em_emtc_emtc_re399( EMT Senescence  ):
PMID:13130303
Regulation of HIF-1a protein synthesis
MNK phosphorylates eIF-4E and stimulates its activity directly.
Active eIF-4E increases the rate of HIF1A-mRNA translation into HIF1A protein.
PMID:16887934
PMID:9159130
HIF-1B (ARNT) is constitutively expressed and itsmRNA and protein are maintained at constant levels regardless of oxygen availability
PMID:9278421
HIF-1A protein has a short half-life (t1/2 = 5 min) and is highly regulated by oxygen
PMID:9746763
The transcription and synthesis of HIF-1B are constitutive and seem not to be affected by oxygen.
PMID:7539918
In normoxia, the HIF-1A proteins are rapidly degraded, resulting in essentially no detectable HIF-1A protein.
PMID:8943284
During hypoxia, HIF-1A becomes stabilized and translocates from the cytoplasm to the nucleus, where it dimerizes with HIF-1B and the HIF complex formed becomes transcriptionally active
PMID:1823643
The activated HIF complex then associates with HREs in the regulatory regions of target genes and binds the transcriptional coactivators to induce gene expression.
PMID:15451019
Tight regulation of the stability and subsequent transactivational function of HIF-1A is chiefly controlled by its post-translation modifications, such as hydroxylation, ubiquitination, acetylation, and phosphorylation
The modification of HIF-1A occurs within several domains.
PMID:10403805
PMID:11566883
PMID:12829734
In normoxia, hydroxylation of 2 proline residues and acetylation of a lysine residue in its ODDD promote interaction of HIF-1A with the von Hippel-Lindau (pVHL) ubiquitin E3 ligase complex (Srinivas et al., 1999; Masson et al., 2001).
PMID:12080085
pVHL complex tags HIF-1A with ubiquitin and thereby marks it for degradation by the 26S proteasome.
In addition, hydroxylation of an asparagine residue in the C-TAD inhibits the association of HIF-1A with CBP/p300 and thus inhibits its transcriptional activity (Lando et al., 2002a).
em_emtc_emtc_re1253( EMT Senescence  ):
http://www.omicsonline.org/1948-5956/JCST-03-035.php
HIF-1 is the Commander of Gateways to Cancer
em_emtc_emtc_re408( EMT Senescence  ):
The transcription and synthesis of HIF-1A are constitutive and seem not to be affected by oxygen.
em_emtc_emtc_re1241( EMT Senescence  ):
PMID:16716598
HIF-1 plays critical roles in angiogenesis during embryonic development and disease pathogenesis

1. HIF_alpha_*@Cytosol

1. HIF_alpha_*@Cytosol → Angiogenesis@Nucleus
2. Hypoxia@Cytosol → HIF_alpha_*@Cytosol
3. HIF_alpha_*@Cytosol → HIF1A@Cytosol
4. HIF_alpha_*@Cytosol → HIF2_alpha_*@Cytosol
5. HIF_alpha_*@Cytosol → HIF3_alpha_*@Cytosol
6. NICD co-factors*@Nucleus → HIF_alpha_*@Cytosol
7. rHIF1A@Nucleus → HIF_alpha_*@Cytosol
8. HIF_alpha_*@Cytosol + HIF1B*@Cytosol → em_emtc_emtc_s1611
9. HIF_alpha_*@Cytosol → degraded