Disruption of Disulfide Bonds of Insulin Receptor as a Cause of Insulin Resistance in DM2

Prasad, A. S. V. (2019) Disruption of Disulfide Bonds of Insulin Receptor as a Cause of Insulin Resistance in DM2. In: Recent Advances in Biological Research Vol. 1Q. B P International, pp. 67-70. ISBN 978-93-89246-19-3

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Abstract

Many theories have been put forward to explain insulin resistance in DM2. The cause of insulin
resistance still remained an enigma till date. Defect in insulin signaling pathway is one such possibility
considered for insulin resistance in DM2. For insulin signal transduction to occur downstream, the
insulin receptor should be in tetrameric, holo-enzyme form so that the conformational changes and
auto-phosphorylation steps take place. A prerequisite to this is, linkage of the two α-sub-units and α,β
-sub-units of the pair of the dimers by disulfide bonds. Without this, the receptor is in the α,β dimer
half-enzyme form, devoid of any binding affinity to the ligand or auto- phosphorylating activity. The
article intends to explore, disruption of the disulfide bond formation of the insulin receptor as a
possible cause of insulin resistance in DM2.

Item Type: Book Section
Subjects: Article Paper Librarian > Biological Science
Depositing User: Unnamed user with email support@article.paperlibrarian.com
Date Deposited: 09 Dec 2023 05:08
Last Modified: 09 Dec 2023 05:08
URI: http://editor.journal7sub.com/id/eprint/2308

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