PHD3 Antibody [H19K23]

Catalog No.: F5289

Application: Reactivity: Mouse, Rat, Human

Lane 1: RAW 264.7, Lane 2: PC-12, Lane 3: Mouse brain, Lane 4: Rat brain

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代表番号: 045-509-1970|電子メール：sales@selleck.co.jp

使用情報

Dilution
WB1:2000 IP1:70 IF1:250

Application
WB, IP, IF

Source
Rabbit Monoclonal Antibody

Reactivity
Mouse, Rat, Human

Storage Buffer
PBS, pH 7.2+50% Glycerol+0.05% BSA+0.01% NaN3

Storage (from the date of receipt)
-20°C (avoid freeze-thaw cycles), 2 years

Predicted MW Observed MW
27 kDa 27 kDa
^*なぜ予測分子量と実際の分子量が異なるのか？下記の原因により、実際の分子量が予測と異なる：タンパク質の翻訳後修飾（リン酸化/糖鎖付加），スプライシングバリアント，イソフォーム，相対的な電荷，ポリマー。

Datasheet & SDS

生物学的記述

Specificity
PHD3 Antibody [H19K23] detects endogenous levels of total PHD3 protein.

Clone
H19K23

Synonym(s)
Prolyl hydroxylase EGLN3; Egl nine homolog 3; HPH-1; Hypoxia-inducible factor prolyl hydroxylase 3; Prolyl hydroxylase domain-containing protein 3; HIF-PH3; HIF-prolyl hydroxylase 3; HPH-3; PHD3; EGLN3

Background
Prolyl hydroxylase domain‑containing protein 3 (PHD3; EGLN3) is an Fe²⁺‑ and 2‑oxoglutarate‑dependent dioxygenase that functions as a cellular oxygen sensor by hydroxylating proline residues on hypoxia‑inducible transcription factors HIF‑1α and HIF‑2α and thereby targeting them for von Hippel–Lindau–mediated ubiquitination and proteasomal degradation under normoxic conditions. PHD3 is widely expressed in oxygen‑sensitive tissues such as the heart, brain, and skeletal muscle, and its transcription is induced by both HIF‑1α and HIF‑2α, creating a feedback loop that couples oxygen availability to the stability and activity of HIF‑dependent transcription programs. Under hypoxia, reduced PHD3 activity allows HIF‑1α and HIF‑2α to accumulate, bind hypoxia‑responsive elements, and drive the expression of genes involved in erythropoiesis, angiogenesis, and metabolic adaptation, whereas PHD3‑dependent hydroxylation restrains this program when oxygen returns. PHD3 can act as a nuclear cofactor for HIF‑1α, enhancing HIF‑1α‑driven transcription at specific target promoters, and PHD3 expression modulates EGFR phosphorylation and downstream mitogenic signaling in certain tumor types. Loss or downregulation of PHD3 enables tumor cells to grow in hypoxic microenvironments by stabilizing HIF‑dependent pathways and by providing an alternative route of EGFR activation, promoting tumor expansion and resistance to hypoxia‑associated stress. Depletion of PHD3 reduces cardiomyocyte apoptosis and infarct size after ischemia–reperfusion, and loss of PHD3 in myeloid cells dampens inflammatory activation in injured skeletal muscle.

Background

Prolyl hydroxylase domain‑containing protein 3 (PHD3; EGLN3) is an Fe²⁺‑ and 2‑oxoglutarate‑dependent dioxygenase that functions as a cellular oxygen sensor by hydroxylating proline residues on hypoxia‑inducible transcription factors HIF‑1α and HIF‑2α and thereby targeting them for von Hippel–Lindau–mediated ubiquitination and proteasomal degradation under normoxic conditions. PHD3 is widely expressed in oxygen‑sensitive tissues such as the heart, brain, and skeletal muscle, and its transcription is induced by both HIF‑1α and HIF‑2α, creating a feedback loop that couples oxygen availability to the stability and activity of HIF‑dependent transcription programs. Under hypoxia, reduced PHD3 activity allows HIF‑1α and HIF‑2α to accumulate, bind hypoxia‑responsive elements, and drive the expression of genes involved in erythropoiesis, angiogenesis, and metabolic adaptation, whereas PHD3‑dependent hydroxylation restrains this program when oxygen returns. PHD3 can act as a nuclear cofactor for HIF‑1α, enhancing HIF‑1α‑driven transcription at specific target promoters, and PHD3 expression modulates EGFR phosphorylation and downstream mitogenic signaling in certain tumor types. Loss or downregulation of PHD3 enables tumor cells to grow in hypoxic microenvironments by stabilizing HIF‑dependent pathways and by providing an alternative route of EGFR activation, promoting tumor expansion and resistance to hypoxia‑associated stress. Depletion of PHD3 reduces cardiomyocyte apoptosis and infarct size after ischemia–reperfusion, and loss of PHD3 in myeloid cells dampens inflammatory activation in injured skeletal muscle.

References
[1] Beneke A, et al. Cell Death Dis. 2017 Aug 10;8(8):e2976. [2] Xie L, et al. J Mol Cell Cardiol. 2015 Mar;80:156-65.

PVDFメンブレン孔径参考表

Protein Size (kDa)	PVDF Transfer Membrane Pore Size (μm)
< 10	0.22
10-20	0.22
20-30	0.45
30-45	0.45
45-70	0.45
80-100	0.45
100-140	0.45
> 140	0.45

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Protein Size (kDa)	Separating Gel Percentage
4-40	20%
12-45	15%
10-70	12.5%
15-100	10%
25-100	8%
60-210	5%