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Protein Origami

Protein Origami Abstract Receptor mutations that elicit loss of function are sometimes equated with defects that ablate receptor-ligand binding or receptor-effector interactions. Similarly, mutationally defective enzymes and ion channels are often viewed as compromised in substrate or ion recognition, respectively. Recent observations, however, suggest that an alternate mechanism may be surprisingly common, namely, that mutations in structural genes may not interfere with the inherent functionality of the affected protein, but nevertheless cause disease by preventing the cell’s trafficking machinery from placing the affected protein at the appropriate subcellular compartment (e.g., at the cell membrane). Accordingly, therapies may be devised to ensure the placement of receptors (or other proteins) at locations where they can support cell function. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Molecular Interventions Am. Soc for Pharma & Experimental Therapeutics

Protein Origami

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Protein Origami

Conn, P. Michael; Leaños-Miranda, Alfredo; Janovick, Jo Ann
Molecular Interventions , Volume 2 (5): 308 – Sep 1, 2002

Abstract

Abstract Receptor mutations that elicit loss of function are sometimes equated with defects that ablate receptor-ligand binding or receptor-effector interactions. Similarly, mutationally defective enzymes and ion channels are often viewed as compromised in substrate or ion recognition, respectively. Recent observations, however, suggest that an alternate mechanism may be surprisingly common, namely, that mutations in structural genes may not interfere with the inherent functionality of the affected protein, but nevertheless cause disease by preventing the cell’s trafficking machinery from placing the affected protein at the appropriate subcellular compartment (e.g., at the cell membrane). Accordingly, therapies may be devised to ensure the placement of receptors (or other proteins) at locations where they can support cell function.

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Publisher
Am. Soc for Pharma & Experimental Therapeutics
Copyright
Copyright © Molecular Interventions
ISSN
1534-0384
eISSN
1543-2548
DOI
10.1124/mi.2.5.308
pmid
14993385
Publisher site
See Article on Publisher Site

Abstract

Abstract Receptor mutations that elicit loss of function are sometimes equated with defects that ablate receptor-ligand binding or receptor-effector interactions. Similarly, mutationally defective enzymes and ion channels are often viewed as compromised in substrate or ion recognition, respectively. Recent observations, however, suggest that an alternate mechanism may be surprisingly common, namely, that mutations in structural genes may not interfere with the inherent functionality of the affected protein, but nevertheless cause disease by preventing the cell’s trafficking machinery from placing the affected protein at the appropriate subcellular compartment (e.g., at the cell membrane). Accordingly, therapies may be devised to ensure the placement of receptors (or other proteins) at locations where they can support cell function.

Journal

Molecular InterventionsAm. Soc for Pharma & Experimental Therapeutics

Published: Sep 1, 2002

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