KCNJ11 / Unconjugated /
Product Details
| Description | Kir6.2/Kcnj11, an ATP sensitive inwardly-rectifying potassium channel, was originally isolated from an insulinoma library. Actual conductance requires association with the sulfonylurea receptor. This receptor is inhibited by sulfonylureas and activated by diazoxide. Mutations in the KNCJ11 gene are found in patients with permanent diabetes mellitus of infancy and hyperinsulinemic hypoglycemia. | |
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| Conjugate | Unconjugated | |
| Clone | ||
| Target Species | Human, Mouse | |
| Applications | ELISA, IF, IHC-P, WB | |
| Supplier | Aviva Systems Biology | |
| Catalog # | Sign in to view product details, citations, and spectra | |
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About KCNJ11
Potassium channels are present in most mammalian cells, where they participate in a wide range of physiologic responses. The protein encoded by this gene is an integral membrane protein and inward-rectifier type potassium channel. The encoded protein, which has a greater tendency to allow potassium to flow into a cell rather than out of a cell, is controlled by G-proteins and is found associated with the sulfonylurea receptor SUR. Mutations in this gene are a cause of familial persistent hyperinsulinemic hypoglycemia of infancy (PHHI), an autosomal recessive disorder characterized by unregulated insulin secretion. Defects in this gene may also contribute to autosomal dominant non-insulin-dependent diabetes mellitus type II (NIDDM), transient neonatal diabetes mellitus type 3 (TNDM3), and permanent neonatal diabetes mellitus (PNDM). Multiple alternatively spliced transcript variants that encode different protein isoforms have been described for this gene. [provided by RefSeq, Oct 2009]
Potassium channels are present in most mammalian cells, where they participate in a wide range of physiologic responses. The protein encoded by this gene is an integral membrane protein and inward-rectifier type potassium channel. The encoded protein, which has a greater tendency to allow potassium to flow into a cell rather than out of a cell, is controlled by G-proteins and is found associated with the sulfonylurea receptor SUR. Mutations in this gene are a cause of familial persistent hyperinsulinemic hypoglycemia of infancy (PHHI), an autosomal recessive disorder characterized by unregulated insulin secretion. Defects in this gene may also contribute to autosomal dominant non-insulin-dependent diabetes mellitus type II (NIDDM), transient neonatal diabetes mellitus type 3 (TNDM3), and permanent neonatal diabetes mellitus (PNDM). Multiple alternatively spliced transcript variants that encode different protein isoforms have been described for this gene. [provided by RefSeq, Oct 2009]
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