Insulin Receptor (INSR) Antibody
292.5€ (50 µl)
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name
Insulin Receptor (INSR) Antibody
category
Primary Antibodies
provider
Abbexa
reference
abx033580
tested applications
ELISA, WB, IHC
Description
INSR is a receptor that binds insulin and has a tyrosine-protein kinase activity. Autophosphorylation activates the kinase activity. This Type I mebrane protein is composed of a tetramer of 2 alpha and 2 beta chains linked by disulfide bonds. The alpha chains contribute to the formation of the ligand-binding domain, while the beta chains carry the kinase domain. After being transported from the endoplasmic reticulum to the Golgi apparatus, the single glycosylated precursor is further glycosylated and then cleaved, followed by its transport to the plasma membrane. Defects in INSR are the cause of insulin resistance of various forms, including mild insulin-resistant diabetes mellitus with acanthosis nigricans, minor physical abnormalities and sometimes polycystic ovaries. Insulin resistance associated with acanthosis nigricans, hirsutism and hyperandrogenism is referred to as insulin resistance type A. Defects in INSR are the cause of Rabson-Mendenhall syndrome, also known as Mendenhall syndrome. It is a severe insulin resistance syndrome characterized by insulin-resistant diabetes mellitus with pineal hyperplasia and somatic abnormalities. Typical features include coarse, senile-appearing facies, dental and skin abnormalities, abdominal distension, and phallic enlargement. Inheritance is autosomal recessive. Defects in INSR are the cause of leprechaunism, also known as Donohue syndrome. Leprechaunism represents the most severe form of insulin resistance syndrome, characterized by intrauterine and postnatal growth retardation and death in early infancy. Inheritance is autosomal recessive. Defects in INSR may be associated with noninsulin-dependent diabetes mellitus.
Documents del producto
Instrucciones
Data sheet
Product specifications
| Category | Primary Antibodies |
| Immunogen Target | Insulin Receptor (INSR) |
| Host | Rabbit |
| Reactivity | Mouse |
| Recommended Dilution | WB: 1/1000, IHC-P: 1/500. Not tested in IHC-F. Optimal dilutions/concentrations should be determined by the end user. |
| Clonality | Polyclonal |
| Conjugation | Unconjugated |
| Isotype | IgG |
| Purification | Purified through a protein G column, eluted with high and low pH buffers and neutralized immediately, followed by dialysis against PBS. |
| Size 1 | 50 µl |
| Size 2 | 200 µl |
| Form | Liquid |
| Tested Applications | ELISA, WB, IHC |
| Buffer | PBS containing 0.09% sodium azide. |
| Availability | Shipped within 5-10 working days. |
| Storage | Aliquot and store at -20°C. Avoid repeated freeze/thaw cycles. |
| Dry Ice | No |
| UniProt ID | P06213 |
| Gene ID | 3643 |
| NCBI Accession | NP_000199.2, NP_001073285.1 |
| OMIM | 125853 |
| Alias | HHF5,CD220,IR |
| Background | Antibody anti-INSR |
| Status | RUO |
Descripción
The insulin receptor (INSR) is a transmembrane protein essential for regulating glucose homeostasis, cellular growth, and metabolism. This receptor, which belongs to the receptor tyrosine kinase (RTK) family, is the primary signaling molecule for insulin, a hormone central to controlling blood sugar levels. By binding insulin, the INSR initiates a cascade of signaling pathways that drive glucose uptake, protein synthesis, lipid metabolism, and cell proliferation. Dysregulation of INSR signaling is implicated in various metabolic and endocrine diseases, most notably type 2 diabetes mellitus (T2DM), obesity, and insulin resistance-related disorders. The receptor’s role in modulating these critical physiological processes makes it a focus for therapeutic interventions and research in metabolic diseases.
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This gene encodes a member of the receptor tyrosine kinase family of proteins. The encoded preproprotein is proteolytically processed to generate alpha and beta subunits that form a heterotetrameric receptor. Binding of insulin or other ligands to this receptor activates the insulin signaling pathway, which regulates glucose uptake and release, as well as the synthesis and storage of carbohydrates, lipids and protein. Mutations in this gene underlie the inherited severe insulin resistance syndromes including type A insulin resistance syndrome, Donohue syndrome and Rabson-Mendenhall syndrome. Alternative splicing results in multiple transcript variants.
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