Abstract
Satellite tobacco mosaic virus (STMV) can undergo at least two physical transitions that significantly alter its mechanical and structural characteristics. At high pH the 17-nm STMV particles expand radially by about 5 A to yield particles having diameters of about 18 nm. This pH-induced transition is further promoted by aging of the virions and degradation of the RNA, so that swollen particles ultimately appear even at neutral pH. While the native 17-nm particles crystallize as orthorhombic or monoclinic crystals which diffract to high resolution (1.8 A), the enlarged 18-nm particles crystallize in a cubic form which diffracts to no better than 5 A. In the transition, not only do the capsid protein subunits move radially outward, but the helical RNA segments with which they interact do as well. This is noteworthy because it demonstrates that the RNA and the protein shell are capable of coordinated movement, and that neither structure is rigidly defined or independent of the other. Using atomic force microscopy, it can be shown that STMV particles, upon drying, lose their mechanical rigidity and undergo deformation. Virions initially 17 nm in diameter shrink to more uniform final sizes than do 18 nm, initially swollen particles. This transition appears to be irreversible, as the particles do not reassume their former size nor structural rigidity upon rehydration. Evidence is also presented that preparations of native virus and their crystals are naturally somewhat heterogeneous and contain a variety of particles of anomalous size.
Highlights
Satellite tobacco mosaic virus (STMV) is a T ϭ 1 particle of about 17 nm diameter containing a singlestranded RNA genome of 1058 bases (Mirkov et al, 1989) inside a capsid composed of 60 identical copies of a coat protein having 159 amino acids and Mr ϭ 17,542 (Valverde and Dodds, 1986, 1987; Valverde et al, 1991).The structure of STMV was solved by X-ray crystallography and reported at 1.8 Å resolution (Larson et al, 1998) for the orthorhombic form
The double-helical RNA segments were closely associated with dimers of coat protein and were oriented so that viral twofold axes were perpendicular to the helical axes of the segments and coincident with their central dyad
Orthorhombic crystals of STMV diffract to at least 1.8 Å resolution, and the structure of STMV was refined to that resolution limit (Larson et al, 1998)
Summary
Satellite tobacco mosaic virus (STMV) is a T ϭ 1 particle of about 17 nm diameter containing a singlestranded RNA genome of 1058 bases (Mirkov et al, 1989) inside a capsid composed of 60 identical copies of a coat protein having 159 amino acids and Mr ϭ 17,542 (Valverde and Dodds, 1986, 1987; Valverde et al, 1991).The structure of STMV was solved by X-ray crystallography and reported at 1.8 Å resolution (Larson et al, 1998) for the orthorhombic form. Satellite tobacco mosaic virus (STMV) is a T ϭ 1 particle of about 17 nm diameter containing a singlestranded RNA genome of 1058 bases (Mirkov et al, 1989) inside a capsid composed of 60 identical copies of a coat protein having 159 amino acids and Mr ϭ 17,542 (Valverde and Dodds, 1986, 1987; Valverde et al, 1991). An unanticipated feature of the STMV structure was the appearance of nearly 45% of the total viral RNA in the electron density maps. This was visualized as 30 doublehelical segments of seven base pairs with an additional base stacked at either 3Ј terminus (Larson et al, 1993a,b). The structural association between the capsid protein and the visible portions of the RNA were delineated in detail
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