In:
Biochemistry and Cell Biology, Canadian Science Publishing, Vol. 80, No. 5 ( 2002-10-01), p. 551-562
Abstract:
Voltage-dependent anion-selective channels (VDAC), also known as mitochondrial porins, are key regulators of metabolite flow across the mitochondrial outer membrane. Porins from a wide variety of organisms share remarkably similar electrophysiological properties, in spite of considerable sequence dissimilarity, indicating that they share a common structure. Based on primary sequence considerations, analogy with bacterial porins, and circular dichroism analysis, it is agreed that VDAC spans the outer membrane as a β-barrel. However, the residues that form the antiparallel β-strands comprising this barrel remain unknown. Various predictive methods, largely based on the known structures of bacterial β-barrels, have been applied to the primary sequences of VDAC. Refinement and confirmation of these predictions have developed through numerous investigations of wild-type and variant porins, both in mitochondria and in artificial membranes. These experiments have involved VDAC from several sources, precluding the generation of a unified model. Herein, using the Neurospora VDAC sequence as a template, the published structural information and predictions have been reassessed to delineate a model that satisfies most of the available data.Key words: VDAC, mitochondrial porin, β-barrel.
Type of Medium:
Online Resource
ISSN:
0829-8211
,
1208-6002
Language:
English
Publisher:
Canadian Science Publishing
Publication Date:
2002
SSG:
12
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