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Rodlike viruses, structure

Completely different mechanisms are involved in the self-assembly of the tobacco mosaic virus (TMV). This virus consists of single-strand RNA, which is surrounded by 2,130 identical protein units, each of which consists of 158 amino acid residues. A virus particle, which requires the tobacco plant as a host, has a rodlike structure with helical symmetry ( Stanley needles ). It is 300 nm long, with a diameter of 18nm. The protein and RNA fractions can be separated, and the viral... [Pg.245]

Both X-ray and neutron fiber diffraction (as well as electron microscopy) techniques have been applied to filamentous viruses, for which the prospect of three-dimensional crystals is poor. By combining neutron and X-ray fiber diffraction, NMR, circular dichroism, and Raman and infrared spectroscopies, an atomic model for the filamentous bacteriophage Pfl has been derived (Liu and Day, 1994). Other studies concerning Pfl have relied on purely X-ray fiber diffraction data, together with molecular modeling, to provide detailed filament structures (Pederson et at, 2001 Welsh et at, 1998a,b, 2000). Eiber diffraction was also used to solve the structure of the rodlike helical tobacco mosaic virus (TMV), where all of the coat protein and three genomic nucleotides... [Pg.51]

Nature has found two basic ways of arranging the multiple capsid protein subunits and the viral genome into a nucleocapsid. In some viruses, multiple copies of a single coat protein form a helical structure that encloses and protects the viral RNA or DNA, which runs In a helical groove within the protein tube. Viruses with such a helical nucleocapsid, such as tobacco mosaic virus, have a rodlike shape. The other major structural type is based on the icosahedron, a solid, approximately spherical object built of 20 identical faces, each of which is an equilateral triangle. [Pg.137]

Figure 36. Biomesogen patterns of immunorelevant structures (top, left to right) mobility sites of myo-haemoerythrin, engaged in antigen-antibody recognitions [77 e] - molecular surface and a-carbon backbone color-coded highly mobile, red and yellow, respectively relatively well-ordered, blue not studied, magenta (center and bottom) polio virus exterior and interior surface patterns [71 a] reminiscent of the bi-refringent solutions of rodlike tobacco mosaic particles and their role in Onsager theory [37]. Figure 36. Biomesogen patterns of immunorelevant structures (top, left to right) mobility sites of myo-haemoerythrin, engaged in antigen-antibody recognitions [77 e] - molecular surface and a-carbon backbone color-coded highly mobile, red and yellow, respectively relatively well-ordered, blue not studied, magenta (center and bottom) polio virus exterior and interior surface patterns [71 a] reminiscent of the bi-refringent solutions of rodlike tobacco mosaic particles and their role in Onsager theory [37].
See other pages where Rodlike viruses, structure is mentioned: [Pg.70]    [Pg.92]    [Pg.92]    [Pg.70]    [Pg.470]    [Pg.49]    [Pg.127]    [Pg.1263]    [Pg.166]    [Pg.1654]    [Pg.1720]    [Pg.182]   
See also in sourсe #XX -- [ Pg.92 , Pg.92 ]



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