Structure of a Flavivirus Envelope Glycoprotein in Its Low-pH-induced Membrane Fusion Conformation

Overview

Journal EMBO J

Specialties Biotechnology
Molecular Biology

Date 2004 Feb 14

PMID 14963486

Citations 263

Authors

Stephane Bressanelli

Karin Stiasny

Steven L Allison

Enrico A Stura

Stephane Duquerroy

Julien Lescar

Franz X Heinz

Felix A Rey

Affiliations

Soon will be listed here.

Abstract

Enveloped viruses enter cells via a membrane fusion reaction driven by conformational changes of specific viral envelope proteins. We report here the structure of the ectodomain of the tick-borne encephalitis virus envelope glycoprotein, E, a prototypical class II fusion protein, in its trimeric low-pH-induced conformation. We show that, in the conformational transition, the three domains of the neutral-pH form are maintained but their relative orientation is altered. Similar to the postfusion class I proteins, the subunits rearrange such that the fusion peptide loops cluster at one end of an elongated molecule and the C-terminal segments, connecting to the viral transmembrane region, run along the sides of the trimer pointing toward the fusion peptide loops. Comparison with the low-pH-induced form of the alphavirus class II fusion protein reveals striking differences at the end of the molecule bearing the fusion peptides, suggesting an important conformational effect of the missing membrane connecting segment.

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