2. Gene
  3. Pik3r1 - phosphoinositide-3-kinase regulatory subunit 1 Gene

Pik3r1 - phosphoinositide-3-kinase regulatory subunit 1 Gene

  • 基因
  • 蛋白
  • 相关产品
  • 直系同源

种属: Rattus norvegicus

同用名: PI3KA

基因 ID: 25513 | 基因类型: protein coding

关于 Pik3r1

功能概要

Enables several functions, including 1-phosphatidylinositol-3-kinase regulator activity; Calmodulin binding activity; and Enzyme binding activity. Contributes to 1-phosphatidylinositol-3-kinase activity. Involved in several processes, including regulation of phosphorylation; response to steroid hormone; and transmembrane receptor protein tyrosine kinase signaling pathway. Located in neuron projection; nucleus; and plasma membrane. Part of phosphatidylinositol 3-kinase complex. Used to study hypertension and portal hypertension. Biomarker of hypertension; obesity; and type 2 diabetes mellitus. Human ortholog(s) of this gene implicated in several diseases, including SHORT syndrome; astroblastoma; endometrial Cancer (multiple); immunodeficiency 36; and type 2 diabetes mellitus. Orthologous to human PIK3R1 (phosphoinositide-3-kinase regulatory subunit 1). [provided by Alliance of Genome Resources, Apr 2022]

Pik3r1 基因产物(1)

mRNA Protein Name
NM_013005.2 NP_037137.2 phosphatidylinositol 3-kinase regulatory subunit alpha
基因本体论
  • 分子功能
  • 生物过程
  • 细胞组分
分子功能 GO 注释 逻辑证据 参考文献 来源
contributes to 1-phosphatidylinositol-3-kinase activity IDA
IDA: 通过直接分析推断
20236230 RGD
enables 1-phosphatidylinositol-3-kinase regulator activity IDA
IDA: 通过直接分析推断
12882977 RGD
enables ATPase binding IPI
IPI: 通过物理相互作用推断
17728397 RGD
enables calmodulin binding IPI
IPI: 通过物理相互作用推断
17492691 RGD
enables insulin receptor substrate binding IPI
IPI: 通过物理相互作用推断
12891559 RGD
enables nuclear estrogen receptor binding IPI
IPI: 通过物理相互作用推断
16971528 RGD
enables phosphoprotein binding IPI
IPI: 通过物理相互作用推断
12882964 RGD
enables platelet-derived growth factor receptor binding IPI
IPI: 通过物理相互作用推断
18421086 RGD
enables protein binding IPI
IPI: 通过物理相互作用推断
10437794 RGD
enables protein domain specific binding IPI
IPI: 通过物理相互作用推断
10973965 RGD
enables protein kinase binding IPI
IPI: 通过物理相互作用推断
15530849 RGD
enables receptor tyrosine kinase binding IPI
IPI: 通过物理相互作用推断
18292389 RGD
enables signaling receptor binding IPI
IPI: 通过物理相互作用推断
14962484 RGD
enables ubiquitin protein ligase binding IPI
IPI: 通过物理相互作用推断
18773943 RGD
生物过程 GO 注释 逻辑证据 参考文献 来源
involved in cellular response to fatty acid IEP
IEP: 通过表达模式推断
17593346 RGD
involved in cellular response to insulin stimulus IEP
IEP: 通过表达模式推断
18922131 RGD
involved in glucose metabolic process IMP
IMP: 通过突变表型推断
9440811 RGD
involved in insulin receptor signaling pathway IMP
IMP: 通过突变表型推断
15161606 RGD
involved in insulin-like growth factor receptor signaling pathway IMP
IMP: 通过突变表型推断
9440811 RGD
involved in negative regulation of blood pressure IMP
IMP: 通过突变表型推断
19015400 RGD
involved in negative regulation of cell-cell adhesion IMP
IMP: 通过突变表型推断
15530849 RGD
involved in negative regulation of heart rate IMP
IMP: 通过突变表型推断
19015400 RGD
involved in negative regulation of muscle cell apoptotic process IMP
IMP: 通过突变表型推断
15089039 RGD
involved in negative regulation of proteolysis IMP
IMP: 通过突变表型推断
15161606 RGD
involved in negative regulation of smooth muscle cell proliferation IMP
IMP: 通过突变表型推断
19783773 RGD
involved in phosphatidylinositol metabolic process IDA
IDA: 通过直接分析推断
12882977 RGD
involved in positive regulation of cell migration IMP
IMP: 通过突变表型推断
15530849 RGD
involved in positive regulation of gene expression IMP
IMP: 通过突变表型推断
20333648 RGD
involved in positive regulation of myoblast differentiation IMP
IMP: 通过突变表型推断
9440811 RGD
involved in positive regulation of protein phosphorylation IMP
IMP: 通过突变表型推断
19723872 RGD
involved in positive regulation of synapse assembly IDA
IDA: 通过直接分析推断
21414895 RGD
involved in response to amino acid IEP
IEP: 通过表达模式推断
19106217 RGD
involved in response to cAMP IDA
IDA: 通过直接分析推断
10875243 RGD
involved in response to dexamethasone IEP
IEP: 通过表达模式推断
20032058 RGD
involved in response to estradiol IEP
IEP: 通过表达模式推断
19462258 RGD
involved in response to ethanol IEP
IEP: 通过表达模式推断
17622585 RGD
involved in response to fatty acid IEP
IEP: 通过表达模式推断
19369057 RGD
involved in response to fructose IEP
IEP: 通过表达模式推断
17976658 RGD
involved in response to glucocorticoid IDA
IDA: 通过直接分析推断
15187100 RGD
involved in response to growth factor IEP
IEP: 通过表达模式推断
18421086 RGD
involved in response to insulin IDA
IDA: 通过直接分析推断
16150536 RGD
involved in response to iron(II) ion IEP
IEP: 通过表达模式推断
17600839 RGD
involved in response to nutrient IEP
IEP: 通过表达模式推断
19657097 RGD
involved in response to progesterone IEP
IEP: 通过表达模式推断
18752305 RGD
involved in response to testosterone IEP
IEP: 通过表达模式推断
20032058 RGD
involved in response to xenobiotic stimulus IEP
IEP: 通过表达模式推断
20519555 RGD
involved in response to yeast IEP
IEP: 通过表达模式推断
19958054 RGD
细胞组分 GO 注释 逻辑证据 参考文献 来源
part of phosphatidylinositol 3-kinase complex IDA
IDA: 通过直接分析推断
12882977 RGD
part of protein-containing complex IDA
IDA: 通过直接分析推断
10973965 RGD
EXP:通过实验结果推断 IDA:通过直接分析推断 IPI:通过物理相互作用推断 IMP:通过突变表型推断 IGI:通过遗传相互作用推断 IEP:通过表达模式推断
蛋白主名 其他名称

phosphatidylinositol 3-kinase regulatory subunit alpha

PI3-kinase p85 subunit alpha

PI3-kinase regulatory subunit alpha

PI3-kinase subunit p85-alpha

PI3K regulatory subunit alpha

Phosphoinositide 3-kinase p85 (other splicing variants: p55 and p50)

Phosphoinositide 3-kinase, regulatory subunit, polypeptid

Pik3r1 蛋白互作信息

分类
蛋白名称 蛋白编号 互作蛋白 互作蛋白种属 互作蛋白编号 实验方法 参考文献
Intra Pik3r1 Q63787 Shtn1 Rattus norvegicus A0MZ67
Anti Bait CoIP
17030985
Cross Pik3r1 Q63787 PDE6G Homo sapiens P18545
Y2H
16357825
Intra Pik3r1 Q63787 Khdrbs1 Rattus norvegicus Q91V33
CoIP
10437794
Intra Pik3r1 Q63787 Gabra1 Rattus norvegicus P62813
Filter Binding
16890252
Intra Pik3r1 Q63787 Gabra1 Rattus norvegicus P62813
Anti Bait CoIP
16890252
Intra Pik3r1 Q63787 Gabra1 Rattus norvegicus P62813
Pull Down
16890252
种属间: 跨种属相互作用 种属内: 同种属相互作用

相关产品

Pre-clinical Phase
生物活性分子 (2)
Cat. No. 产品名 作用方式
纯度 是否罕见病
HY-161366 OMS14 Inhibitor 99.09%
HY-RS10536 PIK3R1 Human Pre-designed siRNA Set A Pre-designed Sets /

直系同源

种属 基因名 来源 基因 ID
Homo sapiens Pik3r1 NCBI NCBI:5295
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