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Items: 1 to 20 of 63

1.

Identification of a functional hypoxia-responsive element that regulates the expression of the egl nine homologue 3 (egln3/phd3) gene.

Pescador N, Cuevas Y, Naranjo S, Alcaide M, Villar D, Landázuri MO, Del Peso L.

Biochem J. 2005 Aug 15;390(Pt 1):189-97.

2.

Regulation of the prolyl hydroxylase domain protein 2 (phd2/egln-1) gene: identification of a functional hypoxia-responsive element.

Metzen E, Stiehl DP, Doege K, Marxsen JH, Hellwig-Bürgel T, Jelkmann W.

Biochem J. 2005 May 1;387(Pt 3):711-7.

3.
4.

The von Hippel Lindau/hypoxia-inducible factor (HIF) pathway regulates the transcription of the HIF-proline hydroxylase genes in response to low oxygen.

del Peso L, Castellanos MC, Temes E, Martin-Puig S, Cuevas Y, Olmos G, Landazuri MO.

J Biol Chem. 2003 Dec 5;278(49):48690-5.

5.

Integration of oxygen signaling at the consensus HRE.

Wenger RH, Stiehl DP, Camenisch G.

Sci STKE. 2005 Oct 18;2005(306):re12. Review.

PMID:
16234508
6.

Prolyl hydroxylases 2 and 3 act in gliomas as protective negative feedback regulators of hypoxia-inducible factors.

Henze AT, Riedel J, Diem T, Wenner J, Flamme I, Pouyseggur J, Plate KH, Acker T.

Cancer Res. 2010 Jan 1;70(1):357-66. doi: 10.1158/0008-5472.CAN-09-1876.

7.
8.

Rodent-specific hypoxia response elements enhance PAI-1 expression through HIF-1 or HIF-2 in mouse hepatoma cells.

Ahn YT, Chua MS, Whitlock JP Jr, Shin YC, Song WH, Kim Y, Eom CY, An WG.

Int J Oncol. 2010 Dec;37(6):1627-38.

PMID:
21042733
9.

A new biological strategy for high productivity of recombinant proteins in animal cells by the use of hypoxia-response enhancer.

Masuda S, Moon SK, Kambe T, Nagao M, Sasaki R.

Biotechnol Bioeng. 2000 Jan 20;67(2):157-64.

PMID:
10592513
10.
11.

The novel WD-repeat protein Morg1 acts as a molecular scaffold for hypoxia-inducible factor prolyl hydroxylase 3 (PHD3).

Hopfer U, Hopfer H, Jablonski K, Stahl RA, Wolf G.

J Biol Chem. 2006 Mar 31;281(13):8645-55.

12.

Hypoxia-induced synthesis of hemoglobin in the crustacean Daphnia magna is hypoxia-inducible factor-dependent.

Gorr TA, Cahn JD, Yamagata H, Bunn HF.

J Biol Chem. 2004 Aug 20;279(34):36038-47.

13.

Analysis of HIF-prolyl hydroxylases binding to substrates.

Landázuri MO, Vara-Vega A, Vitón M, Cuevas Y, del Peso L.

Biochem Biophys Res Commun. 2006 Dec 15;351(2):313-20.

PMID:
17069766
14.

Destruction of a distal hypoxia response element abolishes trans-activation of the PAG1 gene mediated by HIF-independent chromatin looping.

Schörg A, Santambrogio S, Platt JL, Schödel J, Lindenmeyer MT, Cohen CD, Schrödter K, Mole DR, Wenger RH, Hoogewijs D.

Nucleic Acids Res. 2015 Jul 13;43(12):5810-23. doi: 10.1093/nar/gkv506.

15.

Mammalian EGLN genes have distinct patterns of mRNA expression and regulation.

Lieb ME, Menzies K, Moschella MC, Ni R, Taubman MB.

Biochem Cell Biol. 2002;80(4):421-6.

PMID:
12234095
16.

Hypoxia-dependent regulation of PHD1: cloning and characterization of the human PHD1/EGLN2 gene promoter.

Erez N, Stambolsky P, Shats I, Milyavsky M, Kachko T, Rotter V.

FEBS Lett. 2004 Jun 4;567(2-3):311-5.

17.

HIF-1 alpha is a regulator of galectin-3 expression in the intervertebral disc.

Zeng Y, Danielson KG, Albert TJ, Shapiro IM, Risbud MV.

J Bone Miner Res. 2007 Dec;22(12):1851-61.

18.

Prolyl-hydroxylase inhibition and HIF activation in osteoblasts promotes an adipocytic phenotype.

Irwin R, LaPres JJ, Kinser S, McCabe LR.

J Cell Biochem. 2007 Feb 15;100(3):762-72.

PMID:
17031858
19.

Hypoxia and HIF-1 suppress SERCA2a expression in embryonic cardiac myocytes through two interdependent hypoxia response elements.

Ronkainen VP, Skoumal R, Tavi P.

J Mol Cell Cardiol. 2011 Jun;50(6):1008-16. doi: 10.1016/j.yjmcc.2011.02.017.

PMID:
21382378
20.

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