Abstract

The reconstitution process of tobacco mosaic virus (TMV) was investigated by the solution X-ray scattering measurements with the synchrotron radiation source using low-temperature quenching. TMV assembly in an aqueous solution is completely stopped below 5°C. The TMV assembly was traced by the small-angle X-ray scattering (SAXS) measurements at 5°C on a series of solutions prepared by low-temperature quenching after incubation either at 15, 20 or 25°C for an appropriate interval between 0 and 60 min. The SAXS results were analyzed by the Guinier plot, the Kratky plot and the distance distribution function. In order to account the time course of SAXS profiles in terms of the elongation of TMV assembly, a model calculation was performed to simulate the Guinier plot, the Kratky plot and the distance distribution function by applying Glatter's multibody method using models that were constituted of the spheres representing a column of piled two-layer disks of TMV-protein. The three simulated functions thus obtained support the conclusion derived from the three functions calculated from the experimental results that the incubation of the RNA and protein of TMV began to reconstitute TMV instantly after mixing, proceeded steeply to a long rod, and then extended asymptotic to the full length of the TMV particle. This process is in good agreement with that obtained from electron microscopic studies.

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