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AB62321

Anti-Insulin Receptor (phospho Y1185) antibody [EP351(2)Y]

5

(2 Reviews)

|

(8 Publications)

Rabbit Recombinant Monoclonal Insulin Receptor phospho Y1185 antibody. Suitable for IP, WB and reacts with Human samples. Cited in 8 publications.

View Alternative Names

CD220, Insulin receptor, IR, INSR

1 Images
Western blot - Anti-Insulin Receptor (phospho Y1185) antibody [EP351(2)Y] (AB62321)
  • WB

Unknown

Western blot - Anti-Insulin Receptor (phospho Y1185) antibody [EP351(2)Y] (AB62321)

Beta Tubulin has been included as a loading control.

All lanes:

Western blot - Anti-Insulin Receptor (phospho Y1185) antibody [EP351(2)Y] (ab62321) at 1/500 dilution

Lane 1:

HepG2 cell lysate; untreated at 10 µg

Lane 2:

HepG2 cell lysate; Insulin treated at 10 µg

Secondary

All lanes:

goat anti-rabbit HRP conjugated, at 1/2000 dilution

Predicted band size: 156 kDa

Observed band size: 95 kDa

false

  • Carrier free

    Anti-Insulin Receptor (phospho Y1185) antibody [EP351(2)Y] - BSA and Azide free

Key facts

Host species

Rabbit

Clonality

Monoclonal

Clone number

EP351(2)Y

Isotype

IgG

Carrier free

No

Reacts with

Human

Applications

IP, WB

applications

Immunogen

The exact immunogen used to generate this antibody is proprietary information.

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Reactivity data

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Product details

Species reactivity
Mouse, Rat: We have preliminary internal testing data to indicate this antibody may not react with these species.
Please contact us for more information.

Patented technology
Our RabMAb® technology is a patented hybridoma-based technology for making rabbit monoclonal antibodies. For details on our patents, please refer to RabMAb® patents.

What are the advantages of a recombinant monoclonal antibody?
This product is a recombinant monoclonal antibody, which offers several advantages including:

  • - High batch-to-batch consistency and reproducibility
  • - Improved sensitivity and specificity
  • - Long-term security of supply
  • - Animal-free batch production

For more information, read more on recombinant antibodies.

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Properties and storage information

Form
Liquid
Purification technique
Affinity purification Protein A
Storage buffer
pH: 7.2 - 7.4 Preservative: 0.01% Sodium azide Constituents: PBS, 50% Tissue culture supernatant, 40% Glycerol (glycerin, glycerine), 0.05% BSA
Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
-20°C
Storage information
Stable for 12 months at -20°C
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Supplementary information

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

The insulin receptor (INSR) is a transmembrane glycoprotein that functions as a receptor for insulin. Known also as CD220 the receptor has a molecular weight of about 320 kDa. It is widely expressed in insulin-sensitive tissues such as liver muscle and adipose tissues. The insulin receptor consists of two α subunits and two β subunits forming a heterotetramer. These subunits are located outside and inside the cell membrane respectively. The α subunits bind insulin while the β subunits possess tyrosine kinase activity important for downstream signaling.
Biological function summary

Insulin receptor plays a role in facilitating the effects of insulin on glucose and lipid metabolism. When insulin a protein binds to the insulin receptor it undergoes a conformational change that activates its intrinsic kinase activity. This activation further leads to tyrosine phosphorylation of intracellular targets resulting in modulation of cellular functions. Insulin receptor also participates in the formation of signaling complexes through interaction with substrates like insulin receptor substrate (IRS) proteins which are important for the transmission of the insulin signal inside cells.

Pathways

Insulin receptor is central to the insulin signaling pathway and the mitogen-activated protein kinase (MAPK) pathway. Activation of the insulin receptor triggers the insulin signaling cascade which involves various proteins like PI3 kinase and Akt that contribute to glucose uptake and metabolism. In the MAPK pathway the insulin receptor influences gene expression related to cell growth and differentiation. These pathways intertwine with other hormone signaling systems and affect numerous physiological processes critical for maintaining metabolic homeostasis.

Aberrations in insulin receptor function are linked to insulin resistance and type 2 diabetes. Defective signaling through this receptor impairs glucose transport into cells contributing to hyperglycemia. Disorders in insulin receptor activity also relate to metabolic syndrome a cluster of conditions increasing the risk of heart disease. Proteins connected to these conditions include IRS proteins and PI3 kinase highlighting the integrated roles these components play in metabolic regulation. Developing anti-insulin receptor antibodies offers potential therapeutic interventions to modulate receptor function and manage these disorders effectively.
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Product protocols

For this product, it's our understanding that no specific protocols are required. You can visit:
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Target data

Receptor tyrosine kinase which mediates the pleiotropic actions of insulin. Binding of insulin leads to phosphorylation of several intracellular substrates, including, insulin receptor substrates (IRS1, 2, 3, 4), SHC, GAB1, CBL and other signaling intermediates. Each of these phosphorylated proteins serve as docking proteins for other signaling proteins that contain Src-homology-2 domains (SH2 domain) that specifically recognize different phosphotyrosine residues, including the p85 regulatory subunit of PI3K and SHP2. Phosphorylation of IRSs proteins lead to the activation of two main signaling pathways : the PI3K-AKT/PKB pathway, which is responsible for most of the metabolic actions of insulin, and the Ras-MAPK pathway, which regulates expression of some genes and cooperates with the PI3K pathway to control cell growth and differentiation. Binding of the SH2 domains of PI3K to phosphotyrosines on IRS1 leads to the activation of PI3K and the generation of phosphatidylinositol-(3, 4, 5)-triphosphate (PIP3), a lipid second messenger, which activates several PIP3-dependent serine/threonine kinases, such as PDPK1 and subsequently AKT/PKB. The net effect of this pathway is to produce a translocation of the glucose transporter SLC2A4/GLUT4 from cytoplasmic vesicles to the cell membrane to facilitate glucose transport. Moreover, upon insulin stimulation, activated AKT/PKB is responsible for : anti-apoptotic effect of insulin by inducing phosphorylation of BAD; regulates the expression of gluconeogenic and lipogenic enzymes by controlling the activity of the winged helix or forkhead (FOX) class of transcription factors. Another pathway regulated by PI3K-AKT/PKB activation is mTORC1 signaling pathway which regulates cell growth and metabolism and integrates signals from insulin. AKT mediates insulin-stimulated protein synthesis by phosphorylating TSC2 thereby activating mTORC1 pathway. The Ras/RAF/MAP2K/MAPK pathway is mainly involved in mediating cell growth, survival and cellular differentiation of insulin. Phosphorylated IRS1 recruits GRB2/SOS complex, which triggers the activation of the Ras/RAF/MAP2K/MAPK pathway. In addition to binding insulin, the insulin receptor can bind insulin-like growth factors (IGFI and IGFII). Isoform Short has a higher affinity for IGFII binding. When present in a hybrid receptor with IGF1R, binds IGF1. PubMed : 12138094 shows that hybrid receptors composed of IGF1R and INSR isoform Long are activated with a high affinity by IGF1, with low affinity by IGF2 and not significantly activated by insulin, and that hybrid receptors composed of IGF1R and INSR isoform Short are activated by IGF1, IGF2 and insulin. In contrast, PubMed : 16831875 shows that hybrid receptors composed of IGF1R and INSR isoform Long and hybrid receptors composed of IGF1R and INSR isoform Short have similar binding characteristics, both bind IGF1 and have a low affinity for insulin. In adipocytes, inhibits lipolysis (By similarity).
See full target information INSR phospho Y1185
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Publications (8)

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

International journal of molecular sciences 26: PubMed39859274

2025

Cross-Species Epitope Sequence Analysis for Discovery of Existing Antibodies Useful for Phospho-Specific Protein Detection in Model Species.

Applications

Unspecified application

Species

Unspecified reactive species

Yanhui Hu,Chenxi Gao,William McKenna,Baolong Xia,Majd Ariss,Stephanie E Mohr,Norbert Perrimon

eLife 12: PubMed37078570

2023

Pooled genome-wide CRISPR activation screening for rapamycin resistance genes in cells.

Applications

Unspecified application

Species

Unspecified reactive species

Baolong Xia,Raghuvir Viswanatha,Yanhui Hu,Stephanie E Mohr,Norbert Perrimon

iScience 24:102724 PubMed34337357

2021

Microscopic image-based covariation network analysis for actin scaffold-modified insulin signaling.

Applications

Unspecified application

Species

Unspecified reactive species

Yoshiyuki Noguchi,Fumi Kano,Nobuhiko Maiya,Chisako Iwamoto,Shoko Yamasaki,Yosuke Otsubo,Daiki Nakatsu,Rina Kunishige,Masayuki Murata

PeerJ 9:e10920 PubMed33868799

2021

miR-155-5p upregulation ameliorates myocardial insulin resistance via mTOR signaling in chronic alcohol drinking rats.

Applications

Unspecified application

Species

Unspecified reactive species

Zhaoping Li,Zhenzhen Hu,Yan Meng,Hongzhao Xu,Yali Wei,Deqiang Shen,Hao Bai,Huacai Yuan,Liyong Chen

Frontiers in pharmacology 11:717 PubMed32508647

2020

miR-378b Regulates Insulin Sensitivity by Targeting Insulin Receptor and p110α in Alcohol-Induced Hepatic Steatosis.

Applications

Unspecified application

Species

Unspecified reactive species

Yuan-Yuan Li,Yu-Juan Zhong,Qi Cheng,Ying-Zhao Wang,Yuan-Yuan Fan,Cheng-Fang Yang,Zuheng Ma,Yong-Wen Li,Li Li

Cytotechnology 72:499-511 PubMed32409919

2020

Characterization of Huh7 cells after the induction of insulin resistance and post-treatment with metformin.

Applications

Unspecified application

Species

Unspecified reactive species

José Manuel Villalva-Pérez,Marco Antonio Ramírez-Vargas,Jesús Isimar Serafín-Fabían,Mónica Ramírez,Ma Elena Moreno-Godínez,Mónica Espinoza-Rojo,Eugenia Flores-Alfaro

Nature communications 9:4991 PubMed30478313

2018

Genetic variation in PTPN1 contributes to metabolic adaptation to high-altitude hypoxia in Tibetan migratory locusts.

Applications

Unspecified application

Species

Unspecified reactive species

Ding Ding,Guangjian Liu,Li Hou,Wanying Gui,Bing Chen,Le Kang

International journal of molecular sciences 15:16246-56 PubMed25226534

2014

SP600125 induces Src and type I IGF receptor phosphorylation independent of JNK.

Applications

Unspecified application

Species

Unspecified reactive species

Qingbin Kong,Hui Hua,Anguo Cui,Ting Shao,Peiying Song,Yangfu Jiang
View all publications
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