AB154478

Recombinant Human HIF-1 alpha protein

Name: 重组人HIF-1 alpha蛋白 (ab154478)| Abcam中文官网
Brand: Abcam Limited
SKU: AB154478
Price: 3569 CNY
Availability: InStock

Be the first to review this product! Submit a review

(7 Publications)

Recombinant Human HIF-1 alpha protein is a Human Fragment protein, in the 1 to 735 aa range, expressed in Escherichia coli, with >75%, suitable for SDS-PAGE, ELISA, WB.

查看别名

BHLHE78, MOP1, PASD8, HIF1A, Hypoxia-inducible factor 1-alpha, HIF-1-alpha, HIF1-alpha, ARNT-interacting protein, Basic-helix-loop-helix-PAS protein MOP1, Class E basic helix-loop-helix protein 78, Member of PAS protein 1, PAS domain-containing protein 8, bHLHe78

4 Images

Lab

Western blot - Recombinant Human HIF-1 alpha protein (AB154478)

We recommend using 5% milk in TBST as the blocking agent, decreasing to 2% milk in TBST during primary and secondary antibody incubation. Blots were developed with Goat Anti-Mouse IgG H&L (HRP) preadsorbed (ab97040) secondary antibody

All lanes:

Western blot - Anti-HIF-1 alpha antibody [H1alpha67] (<a href='/products/primary-antibodies/hif-1-alpha-antibody-h1alpha67-ab1'>ab1</a>) at 5 µg/mL

Lane 1:

Western blot - HeLa nuclear extract lysate (<a href='/products/tissue-lysates/hela-nuclear-extract-lysate-ab150036'>ab150036</a>) at 40 µg

Lane 2:

Western blot - Hela-DFO treated (0.5mM, 24h) Nuclear Lysate (<a href='/products/tissue-lysates/hela-dfo-treated-05mm-24h-nuclear-lysate-ab180880'>ab180880</a>) at 40 µg

Lane 3:

HeLa nuclear control at 40 µg

Lane 4:

HeLa nuclear DFO treated at 40 µg

Lane 5:

Western blot - Recombinant Human HIF-1 alpha protein (ab154478) at 0.001 µg

Secondary

All lanes:

Western blot - Goat Anti-Mouse IgG H&L (HRP) preadsorbed (<a href='/products/secondary-antibodies/goat-mouse-igg-h-l-hrp-preadsorbed-ab97040'>ab97040</a>) at 1/10000 dilution

Predicted band size: 92 kDa

false

Exposure time: 20min

ELISA - Recombinant Human HIF-1 alpha protein (AB154478)

ELISA

Unknown

ELISA - Recombinant Human HIF-1 alpha protein (AB154478)

ab154478 was tested in the HIF1A Human ELISA Kit (ab117996). ab154478 was tested under standard conditions in the sandwich ELISA kit using a 3-fold dilution series from 3µg/ml.

Unknown

Western blot - Recombinant Human HIF-1 alpha protein (AB154478)

ab154478 was examined by western blot with an anti-HIF-1-alpha antibody.

Lane1 : 10ng HIF1 alpha full-length protein (ab154478)

Block : 4% milk/PBS Primary antibody : anti-HIF-1-alpha (ab51608), 1 : 1000; 2 hours room temperature. Secondary antibody : anti-Rabbit HRP 1 : 5000 ECL detection

All lanes:

Western blot - Recombinant Human HIF-1 alpha protein (ab154478)

false

SDS-PAGE - Recombinant Human HIF-1 alpha protein (AB154478)

SDS-PAGE

Unknown

SDS-PAGE - Recombinant Human HIF-1 alpha protein (AB154478)

1μg of ab154478 was examined by SDS-PAGE and commassie blue protein stain. Full-length HIF-1-alpha is indicated by the arrow. Purity is judged to be >75%.

Expected MW is 100kDa.

关键信息

纯度

>75% SDS-PAGE

表达系统

Escherichia coli

应用

WB, SDS-PAGE, ELISA

applications

生物活性

访问

Q16665

不含动物源

不含载体蛋白

种属

Human

存储溶液

pH: 8 Constituents: 10% Glycerol (glycerin, glycerine), 0.88% Sodium chloride, 0.61% Tris

storage-buffer

style

left-column

反应性数据

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "SDS-PAGE": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"" }, "ELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"" }, "WB": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"" } } }

style

left-column

产品详情

Product was previously marketed under the MitoSciences sub-brand.

style

left-column

序列信息

[{"sequence":"MSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSGSGHMHHHHHHSSGLVPRGSGMKETAAAKFERQHMDSPDLGTENLYFQGMEGAGGANDKKKISSERRKEKSRDAARSRRSKESEVFYELAHQLPLPHNVSSHLDKASVMRLTISYLRVRKLLDAGDLDIEDDMKAQMNCFYLKALDGFVMVLTDDGDMIYISDNVNKYMGLTQFELTGHSVFDFTHPCDHEEMREMLTHRNGLVKKGKEQNTQRSFFLRMKCTLTSRGRTMNIKSATWKVLHCTGHIHVYDTNSNQPQCGYKKPPMTCLVLICEPIPHPSNIEIPLDSKTFLSRHSLDMKFSYCDERITELMGYEPEELLGRSIYEYYHALDSDHLTKTHHDMFTKGQVTTGQYRMLAKRGGYVWVETQATVIYNTKNSQPQCIVCVNYVVSGIIQHDLIFSLQQTECVLKPVESSDMKMTQLFTKVESEDTSSLFDKLKKEPDALTLLAPAAGDTIISLDFGSNDTETDDQQLEEVPLYNDVMLPSPNEKLQNINLAMSPLPTAETPKPLRSSADPALNQEVALKLEPNPESLELSFTMPQIQDQTPSPSDGSTRQSSPEPNSPSEYCFYVDSDMVNEFKLELVEKLFAEDTEAKNPFSTQDTDLDLEMLAPYIPMDDDFQLRSFDQLSPLESSSASPESASPQSTVTVFQQTQIQEPTANATTTTATTDELKTVTKDRMEDIKILIASPSPTHIHKETTSATSSPYRDTQSRTASPNRAGKGVIEQTEKSHPRSPNVLSVALSQRTTVPEEELNPKILALQNAQRKRKMEHDGSLFQAVGIG","proteinLength":"Fragment","predictedMolecularWeight":"100 kDa","actualMolecularWeight":null,"aminoAcidEnd":735,"aminoAcidStart":1,"nature":"Recombinant","expressionSystem":"Escherichia coli","accessionNumber":"Q16665","tags":[{"tag":"His","terminus":"N-Terminus"}]}]

style

left-column

性能和储存信息

运输条件

Dry Ice

储存信息

Avoid freeze / thaw cycle

False

style

left-column

补充信息

This supplementary information is collated from multiple sources and compiled automatically.

HIF-1 alpha also known as hypoxia-inducible factor 1-alpha is a transcription factor critical in cellular response to low oxygen levels. Its molecular weight usually ranges from 93 to 120 kDa. You can find HIF-1 alpha expressed in tissues throughout the body but its expression significantly increases under hypoxic conditions. Researchers often use the HIF-1a ELISA to measure its expression levels. HIF-1 alpha forms a complex with other proteins to perform its functions effectively.

Biological function summary

HIF-1 alpha regulates gene expression in response to hypoxic conditions in cells. It forms a complex with HIF-1 beta to activate transcription of various genes involved in energy metabolism angiogenesis and erythropoiesis. HIF-1 alpha enables cells to adapt to reduced oxygen availability allowing for cellular survival and function under stress. It plays an important role in promoting the expression of genes like VEGF and EPO which are important for vascular and red blood cell development respectively.

Pathways

HIF-1 alpha plays an integral role in the hypoxia signaling pathway and the glycolytic pathway. In the hypoxia signaling pathway HIF-1 alpha partners with VHL (Von Hippel-Lindau) protein that regulates its degradation under normal oxygen conditions. When oxygen levels drop HIF-1 alpha avoids degradation stabilizes and translocates into the nucleus to initiate transcription of hypoxia-responsive genes. The glycolytic pathway involvement highlights its function in adapting energy production under hypoxic conditions through collaboration with enzymes and transporters associated with glycolysis.

HIF-1 alpha has been implicated in cancer and ischemic diseases. Its role in promoting angiogenesis and metabolic adaptation makes it a contributor to tumor growth and survival collaborating with oncogenes such as c-Myc. In ischemic diseases like stroke or myocardial infarction HIF-1 alpha's ability to induce protective responses can mitigate tissue damage through regulation of survival pathways. Understanding these interactions helps in the development of therapeutic strategies targeting HIF-1 alpha in disease contexts.

style

left-column

特殊说明

形式

Liquid

附加说明

ab154478 was purified by Ni chromatography and sterile filtered.

style

left-column

常规信息

功能

The protein expressed by the gene HIF1A functions as a master transcriptional regulator of the adaptive response to hypoxia, activating the transcription of over 40 genes under hypoxic conditions, including erythropoietin, glucose transporters, glycolytic enzymes, vascular endothelial growth factor, HILPDA, and others. These genes' protein products enhance oxygen delivery or facilitate metabolic adaptation to hypoxia. HIF1A is crucial for embryonic vascularization, tumor angiogenesis, and ischemic disease pathophysiology. Its activation requires transcriptional coactivators like CREBBP and EP300, with activity enhanced by interactions with NCOA1 and/or NCOA2. Interaction with redox regulatory protein APEX1 activates CTAD and enhances activation by NCOA1 and CREBBP. Additionally, HIF1A is involved in axonal distribution and mitochondrial transport in neurons during hypoxia. In the context of microbial infection, specifically human coronavirus SARS-CoV-2, HIF1A is necessary for glycolysis induction in monocytes, leading to a proinflammatory state, inducing expression of ACE2, cytokines, and promoting virus replication and monocyte inflammatory response. This supplementary information is collated from multiple sources and compiled automatically.

翻译后修饰

S-nitrosylation of Cys-800 may be responsible for increased recruitment of p300 coactivator necessary for transcriptional activity of HIF-1 complex.. Requires phosphorylation for DNA-binding. Phosphorylation at Ser-247 by CSNK1D/CK1 represses kinase activity and impairs ARNT binding (PubMed:20699359, PubMed:20889502). Phosphorylation by GSK3-beta and PLK3 promote degradation by the proteasome (By similarity).. Sumoylated; with SUMO1 under hypoxia (PubMed:15465032, PubMed:15776016, PubMed:17610843). Sumoylation is enhanced through interaction with RWDD3 (PubMed:17956732). Both sumoylation and desumoylation seem to be involved in the regulation of its stability during hypoxia (PubMed:15465032, PubMed:15776016, PubMed:17610843). Sumoylation can promote either its stabilization or its VHL-dependent degradation by promoting hydroxyproline-independent HIF1A-VHL complex binding, thus leading to HIF1A ubiquitination and proteasomal degradation (PubMed:15465032, PubMed:15776016, PubMed:17610843). Desumoylation by SENP1 increases its stability amd transcriptional activity (By similarity). There is a disaccord between various publications on the effect of sumoylation and desumoylation on its stability and transcriptional activity (Probable).. Acetylation of Lys-532 by ARD1 increases interaction with VHL and stimulates subsequent proteasomal degradation (PubMed:12464182). Deacetylation of Lys-709 by SIRT2 increases its interaction with and hydroxylation by EGLN1 thereby inactivating HIF1A activity by inducing its proteasomal degradation (PubMed:24681946).. Polyubiquitinated; in normoxia, following hydroxylation and interaction with VHL. Lys-532 appears to be the principal site of ubiquitination. Clioquinol, the Cu/Zn-chelator, inhibits ubiquitination through preventing hydroxylation at Asn-803. Ubiquitinated by E3 ligase VHL (PubMed:25615526). Deubiquitinated by UCHL1 (PubMed:25615526).. In normoxia, is hydroxylated on Pro-402 and Pro-564 in the oxygen-dependent degradation domain (ODD) by EGLN1/PHD2 and EGLN2/PHD1 (PubMed:11292861, PubMed:11566883, PubMed:12351678, PubMed:15776016, PubMed:25974097). EGLN3/PHD3 has also been shown to hydroxylate Pro-564 (PubMed:11292861, PubMed:11566883, PubMed:12351678, PubMed:15776016, PubMed:25974097). The hydroxylated prolines promote interaction with VHL, initiating rapid ubiquitination and subsequent proteasomal degradation (PubMed:11292861, PubMed:11566883, PubMed:12351678, PubMed:15776016, PubMed:25974097). Deubiquitinated by USP20 (PubMed:11292861, PubMed:11566883, PubMed:12351678, PubMed:15776016, PubMed:25974097). Under hypoxia, proline hydroxylation is impaired and ubiquitination is attenuated, resulting in stabilization (PubMed:11292861, PubMed:11566883, PubMed:12351678, PubMed:15776016, PubMed:25974097). In normoxia, is hydroxylated on Asn-803 by HIF1AN, thus abrogating interaction with CREBBP and EP300 and preventing transcriptional activation (PubMed:12080085). This hydroxylation is inhibited by the Cu/Zn-chelator, Clioquinol (PubMed:12080085). Repressed by iron ion, via Fe(2+) prolyl hydroxylase (PHD) enzymes-mediated hydroxylation and subsequent proteasomal degradation (PubMed:28296633).. The iron and 2-oxoglutarate dependent 3-hydroxylation of asparagine is (S) stereospecific within HIF CTAD domains.. (Microbial infection) Glycosylated at Arg-18 by enteropathogenic E.coli protein NleB1: arginine GlcNAcylation enhances transcription factor activity and impairs glucose metabolism.

亚细胞定位

Nucleus

style

left-column

产品实验方案

Visit the General protocols
Visit the Troubleshooting

style

left-column

靶点信息

See full target information HIF1A

style

left-column

文献 (7)

Recent publications for all applications. Explore the full list and refine your search

Scientific reports 15:21347 PubMed40594327

2025

Identification of autoantibodies against HIF1a in patients with anorexia nervosa and their potential role in hepatic cytolysis.

Applications

Unspecified application

Species

Unspecified reactive species

Ahmad Joshkon,Charlotte Reytier,Daniel Bertin,Sarah Castets,Rachel Reynaud,Flora Bat,Jean-Louis Mege,Marcel Blot-Chabaud,Patrice Darmon,Nathalie Bardin

Scientific reports 14:30682 PubMed39730426

2024

Daphnetin may protect from SARS-CoV-2 infection by reducing ACE2.

Applications

Unspecified application

Species

Unspecified reactive species

Qian-Wen Yang,Chang-Ling Yue,Meng Chen,Yun-Yun Ling,Qi Dong,Ying-Xin Zhou,Yin Cao,Yan-Xia Ding,Xu Zhao,Hai Huang,Zhao-Huan Zhang,Lei Hu,Xiao-Hui Xu

International journal of molecular sciences 25: PubMed38338821

2024

The Role of Hypoxia-Inducible Factor 1 Alpha in Acute-on-Chronic Liver Failure.

Applications

Unspecified application

Species

Unspecified reactive species

Marcus M Mücke,Nihad El Bali,Katharina M Schwarzkopf,Frank Erhard Uschner,Nico Kraus,Larissa Eberle,Victoria Therese Mücke,Julia Bein,Sandra Beyer,Peter J Wild,Robert Schierwagen,Sabine Klein,Stefan Zeuzem,Christoph Welsch,Jonel Trebicka,Angela Brieger

PLoS biology 18:e3000660 PubMed32453744

2020

HIV-1 Tat-mediated astrocytic amyloidosis involves the HIF-1α/lncRNA BACE1-AS axis.

Applications

Unspecified application

Species

Unspecified reactive species

Susmita Sil,Guoku Hu,Ke Liao,Fang Niu,Shannon Callen,Palsamy Periyasamy,Howard S Fox,Shilpa Buch

FASEB journal : official publication of the Federation of American Societies for Experimental Biology 34:4293-4310 PubMed32017264

2020

Regulation of hypoxia-inducible factor functions in the nucleus by sphingosine-1-phosphate.

Applications

Unspecified application

Species

Unspecified reactive species

Nitai C Hait,Aparna Maiti,Pan Xu,Qianya Qi,Tsutomu Kawaguchi,Maiko Okano,Kazuaki Takabe,Li Yan,Cheng Luo

Cells 9: PubMed31947613

2020

The Reverse Warburg Effect is Associated with Fbp2-Dependent Hif1α Regulation in Cancer Cells Stimulated by Fibroblasts.

Applications

Unspecified application

Species

Unspecified reactive species

Przemysław Duda,Jakub Janczara,James A McCubrey,Agnieszka Gizak,Dariusz Rakus

Fertility and sterility 105:1496-1502.e4 PubMed27018158

2016

Hypoxia inducible factor and microvessels in peri-implantation endometrium of women with recurrent miscarriage.

Applications

Unspecified application

Species

Unspecified reactive species

Xiaoyan Chen,Lingming Jiang,Chi Chiu Wang,Jin Huang,Tin Chiu Li

View all publications

style

left-column

style

left-column

style

right-column

Abcam Product Promise

我们致力于为您的研究提供高质量的试剂，为您科研的每一步提供支持。若我们的产品未能达到预期性能，我们向您提供 Abcam Product Promise 保障。

详情请参阅我们的条款与条件。

Please note: All products are 'FOR RESEARCH USE ONLY. NOT FOR USE IN DIAGNOSTIC OR THERAPEUTIC PROCEDURES'.

For licensing inquiries, please contact partnerships@abcam.com

Recombinant Human HIF-1 alpha protein