Yong-Bin Yan scite author profile

The crystallographically determined structure of simian virus 40 shows that the 72 pentamers of viral protein VP1, which form the outer shell, have identical conformations except for the C-terminal arms of their subunits. Five arms emerge from each pentamer and insert into neighbouring pentamers. This tying together of standard building blocks allows for the required variability in packing geometry without sacrificing specificity.

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The structure of simian virus 40 refined at 3.1 å resolution

Stehle¹,

Gamblin²,

et al. 1996

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Structure of murine polyomavirus complexed with an oligosaccharide receptor fragment

Stehle

Yan

Benjamin

et al. 1994

Nature

285

338

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The polyomaviruses are non-enveloped, icosahedrally symmetrical particles with circular double-stranded DNA genomes. The outer shell of the virion contains 360 copies of viral protein VP1 (M(r) approximately 42K) arranged in pentamers. We report here the structure at 3.65 A resolution of murine polyomavirus ('polyoma') complexed with an oligosaccharide receptor fragment. This structure has been determined using the previously described model of simian virus 40 (SV40). Although very similar in structure to SV40, polyoma has interesting biological differences. Cell-surface N-acetyl neuraminic acid (sialic acid) is required for polyoma infectivity, but not for SV40. Polyoma attaches to the surface of susceptible cells by stereospecific recognition of oligosaccharides terminating in (alpha 2,3)-linked sialic acid. Studies of pathogenicity show that the specificity of viral binding to such oligosaccharides is an important determinant of the virus' ability to establish a disseminated infection and to induce tumours in the natural host. The complex described here show how polyoma recognizes the receptor fragment and how strains with different receptor specificities can distinguish between alternative ligands. The results also suggest an explanation for the large disparity in pathogenicity exhibited by strains differing in only one amino-acid residue of VP1.

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Crystal Structure of the Repetitive Segments of Spectrin

Yan

Winograd

Viel

et al. 1993

Science

340

289

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The elongated proteins of the spectrin family (dystrophin, alpha-actinin, and spectrin) contain tandemly repeated segments and form resilient cellular meshworks by cross-linking actin filaments. The structure of one of the repetitive segments of alpha-spectrin was determined at a 1.8 angstrom resolution. A segment consists of a three-helix bundle. A model of the interface between two tandem segments suggests that hydrophobic interactions between segments may constrain intersegment flexibility. The helix side chain interactions explain how mutations that are known to produce hemolytic anemias disrupt spectrin associations that sustain the integrity of the erythrocyte membrane.

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Yong-Bin Yan

Structure of simian virus 40 at 3.8-Å resolution

The structure of simian virus 40 refined at 3.1 å resolution

Structure of murine polyomavirus complexed with an oligosaccharide receptor fragment

Crystal Structure of the Repetitive Segments of Spectrin

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