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STUDIES ON THE AGGREGATION REACTIONS AND BASIC DYE BINDING OF TOBACCO MOSAIC VIRUS : I. VARIATION OF PH, PARTICLE ASYMMETRY, ACID AND BASE TITRATION RESULTS, IRREVERSIBLE BINDING OF METHYLENE BLUE, ULTRAVIOLET ABSORPTION, AND EXTENT OF HEAT DENATURATION IN TOBACCO MOSAIC VIRUS SOLUTIONS WITH TIME OF STANDING

1. Aqueous solutions of tobacco mosaic virus were found to undergo a number of spontaneous changes on standing in the cold. The results of pH measurements, acid and base titrations, intrinsic viscosity determinations, studies on the irreversible binding of methylene blue with the virus, ultraviolet...

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Detalles Bibliográficos
Autor principal: Welsh, Richard S.
Formato: Texto
Lenguaje:English
Publicado: The Rockefeller University Press 1956
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2147545/
https://www.ncbi.nlm.nih.gov/pubmed/13286459
Descripción
Sumario:1. Aqueous solutions of tobacco mosaic virus were found to undergo a number of spontaneous changes on standing in the cold. The results of pH measurements, acid and base titrations, intrinsic viscosity determinations, studies on the irreversible binding of methylene blue with the virus, ultraviolet absorption, and the extent of nucleic acid splitting by heat denaturation indicated the occurrence of two successive reactions, the first one causing the release of hydrogen ions and a greater lability of the nucleic acid, and the second one, which involved end-to-end dimerization and which took place after 8 days of standing, requiring hydrogen ions. 2. The first over-all reaction was found to be a mixture of various types of reversible disaggregation and aggregation reactions, the nature of which depended on the pretreatment, the TMV concentration, the time of standing, and the phosphate concentration. For longer times of standing at high protein concentration a sudden drop in ultraviolet absorption is noted after dilution; also the drops in viscosity and pH are largest with a steep rise following, indicating the greatest breakup of end-to-end aggregates with formation of the side-to-side type. For concentrated solutions of TMV in water which have not stood long no drop in ultraviolet absorption is noted on dilution; the decrease in the other quantities is less, indicating that only a less extensive breakdown of end-to-end aggregates occurs. Addition of phosphate to concentrated solutions of TMV causes formation of side-to-side aggregates which break up on dilution. 3. Using the results for the pH increase and the viscosity increase in a given time interval for a given TMV preparation and also the slope of the corresponding titration curve at the pH mean, a value for the number of hydrogen ions taken up per TMV monomer in the formation of the end-to-end dimer was finally calculated. The average result obtained for two preparations was 3300. 4. Methylene blue, in the polymeric form, was demonstrated to cause complete irreversible conversion of TMV monomers to end-to-end dimers. At dye concentrations above 10(–4) M, higher TMV polymers are formed, but these are broken down to dimers on removal of free dye by dialysis. The irreversible binding ratios were shown to be decreased in accordance with the extent of the end-to-end aggregation of the preparation at the time of the experiment, which is in agreement with the concept that the irreversibly bound dye polymers go into the junction formed between two interacting TMV monomers. On the basis that only the monomers initially present in solution can react, maximum binding ratios corresponding to complete conversion of monomers to dimers were calculated from the observed irreversible binding ratios and from the fraction of dimers initially present which was obtained from viscosity data. The average result for three preparations in different states of aggregation was calculated to be 6565 for tetrameric binding or 3230 for dimeric binding, which agrees closely with the result obtained for the uptake of hydrogen ions per TMV monomer in the spontaneous dimerization.