Crystal structure of glycoprotein B from herpes simplex virus 1
EE Heldwein, H Lou, FC Bender, GH Cohen… - Science, 2006 - science.org
EE Heldwein, H Lou, FC Bender, GH Cohen, RJ Eisenberg, SC Harrison
Science, 2006•science.orgGlycoprotein B (gB) is the most conserved component of the complex cell-entry machinery of
herpes viruses. A crystal structure of the gB ectodomain from herpes simplex virus type 1
reveals a multidomain trimer with unexpected homology to glycoprotein G from vesicular
stomatitis virus (VSV G). An α-helical coiled-coil core relates gB to class I viral membrane
fusion glycoproteins; two extended β hairpins with hydrophobic tips, homologous to fusion
peptides in VSV G, relate gB to class II fusion proteins. Members of both classes accomplish …
herpes viruses. A crystal structure of the gB ectodomain from herpes simplex virus type 1
reveals a multidomain trimer with unexpected homology to glycoprotein G from vesicular
stomatitis virus (VSV G). An α-helical coiled-coil core relates gB to class I viral membrane
fusion glycoproteins; two extended β hairpins with hydrophobic tips, homologous to fusion
peptides in VSV G, relate gB to class II fusion proteins. Members of both classes accomplish …
Glycoprotein B (gB) is the most conserved component of the complex cell-entry machinery of herpes viruses. A crystal structure of the gB ectodomain from herpes simplex virus type 1 reveals a multidomain trimer with unexpected homology to glycoprotein G from vesicular stomatitis virus (VSV G). An α-helical coiled-coil core relates gB to class I viral membrane fusion glycoproteins; two extended β hairpins with hydrophobic tips, homologous to fusion peptides in VSV G, relate gB to class II fusion proteins. Members of both classes accomplish fusion through a large-scale conformational change, triggered by a signal from a receptor-binding component. The domain connectivity within a gB monomer would permit such a rearrangement, including long-range translocations linked to viral and cellular membranes.
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