[HTML][HTML] The fusion glycoprotein shell of Semliki Forest virus: an icosahedral assembly primed for fusogenic activation at endosomal pH
Semliki Forest virus (SFV) has been extensively studied as a model for analyzing entry of
enveloped viruses into target cells. Here we describe the trace of the polypeptide chain of
the SFV fusion glycoprotein, E1, derived from an electron density map at 3.5 Å resolution
and describe its interactions at the surface of the virus. E1 is unexpectedly similar to the
flavivirus envelope protein, with three structural domains disposed in the same primary
sequence arrangement. These results introduce a new class of membrane fusion proteins …
enveloped viruses into target cells. Here we describe the trace of the polypeptide chain of
the SFV fusion glycoprotein, E1, derived from an electron density map at 3.5 Å resolution
and describe its interactions at the surface of the virus. E1 is unexpectedly similar to the
flavivirus envelope protein, with three structural domains disposed in the same primary
sequence arrangement. These results introduce a new class of membrane fusion proteins …
Abstract
Semliki Forest virus (SFV) has been extensively studied as a model for analyzing entry of enveloped viruses into target cells. Here we describe the trace of the polypeptide chain of the SFV fusion glycoprotein, E1, derived from an electron density map at 3.5 Å resolution and describe its interactions at the surface of the virus. E1 is unexpectedly similar to the flavivirus envelope protein, with three structural domains disposed in the same primary sequence arrangement. These results introduce a new class of membrane fusion proteins which display lateral interactions to induce the necessary curvature and direct budding of closed particles. The resulting surface protein lattice is primed to cause membrane fusion when exposed to the acidic environment of the endosome.
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