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Literature DB >> 19638273

Structural studies of the N-terminus of Connexin 32 using 1H NMR spectroscopy.

B D Kalmatsky¹, S Bhagan, Q Tang, T A Bargiello, T L Dowd.

Abstract

The amino terminus of gap junction proteins, connexins, plays a fundamental role in voltage gating and ion permeation. We have previously shown with (1)H NMR that the structure of the N-terminus of a representative connexin molecule contains a flexible turn around glycine 12 [P.E. Purnick, D.C. Benjamin, V.K. Verselis, T.A. Bargiello, T.L. Dowd, Arch. Biochem. Biophys. 381 (2000) 181-190] allowing the N-terminus to reside at the cytoplasmic entry of the channel forming a voltage-sensor. Previous functional studies or neuropathies have shown that the mutation G12Y and G12S form non-functional channels while functional channels are formed from G12P. Using 2D (1)H NMR we show that similar to G12, the structure of the G12P mutant contains a more flexible turn around residue 12, whereas the G12S and G12Y mutants contain tighter, helical turns in this region. These results suggest an unconstrained turn is required around residue 12 to position the N-terminus within the pore allowing the formation of the cytoplasmic channel vestibule, which appears to be critical for proper channel function.

Entities: Chemical Disease Gene Mutation Species

Mesh：

Substances：
Connexins
connexin 32

Year: 2009 PMID： 19638273 PMCID： PMC4510928 DOI： 10.1016/j.abb.2009.07.015

Source DB: PubMed Journal: Arch Biochem Biophys ISSN： 0003-9861 Impact factor: 4.013

38 in total

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7. A missense mutation in the human connexin50 gene (GJA8) underlies autosomal dominant "zonular pulverulent" cataract, on chromosome 1q.

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Journal: Brain Res Brain Res Rev Date: 2000-04

9. Charges dispersed over the permeation pathway determine the charge selectivity and conductance of a Cx32 chimeric hemichannel.

Authors: Seunghoon Oh; Vytas K Verselis; Thaddeus A Bargiello
Journal: J Physiol Date: 2008-03-27 Impact factor: 5.182

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15 in total

Review 1. Structural basis for the selective permeability of channels made of communicating junction proteins.

Authors: Jose F Ek-Vitorin; Janis M Burt
Journal: Biochim Biophys Acta Date: 2012-02-10

Review 2. Voltage-dependent conformational changes in connexin channels.

Authors: Thaddeus A Bargiello; Qingxiu Tang; Seunghoon Oh; Taekyung Kwon
Journal: Biochim Biophys Acta Date: 2011-09-24

Review 3. Connexin43 phosphorylation in brain, cardiac, endothelial and epithelial tissues.

Authors: Lucrecia Márquez-Rosado; Joell L Solan; Clarence A Dunn; Rachael P Norris; Paul D Lampe
Journal: Biochim Biophys Acta Date: 2011-07-26

Review 4. Proteins and mechanisms regulating gap-junction assembly, internalization, and degradation.

Authors: Anastasia F Thévenin; Tia J Kowal; John T Fong; Rachael M Kells; Charles G Fisher; Matthias M Falk
Journal: Physiology (Bethesda) Date: 2013-03

Review 5. Structural organization of intercellular channels II. Amino terminal domain of the connexins: sequence, functional roles, and structure.

Authors: Eric C Beyer; Gregory M Lipkind; John W Kyle; Viviana M Berthoud
Journal: Biochim Biophys Acta Date: 2011-10-20