A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus

M. Figlerowicz; P. D. Nagy; J. J. Bujarski

doi:10.1073/pnas.94.5.2073

A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus

M. Figlerowicz, P. D. Nagy, J. J. Bujarski

Plant Pathology

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Abstract

Brome mosaic bromovirus (BMV), a positive-stranded RNA virus, supports both homologous and nonhomologous RNA recombinations. Two BMV (temperature- sensitive) mutants with alterations in the 2a protein, the putative RNA polymerase component of the viral replicase, were tested for their ability to support both types of recombination. Here we report that one of these mutants with the Leu-486 substituted by Phe did not support nonhomologous recombination. Effect on homologous recombination was mainly on the location and precision of crossover events. The other 2a mutant with Ash-458 substituted by Asp did not negatively affect either type of recombination. Apparently, BMV RNA polymerase participates differently in the two types of recombination events.

Original language	English
Pages (from-to)	2073-2078
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	94
Issue number	5
DOIs	https://doi.org/10.1073/pnas.94.5.2073
State	Published - Mar 4 1997

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title = "A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus",

abstract = "Brome mosaic bromovirus (BMV), a positive-stranded RNA virus, supports both homologous and nonhomologous RNA recombinations. Two BMV (temperature- sensitive) mutants with alterations in the 2a protein, the putative RNA polymerase component of the viral replicase, were tested for their ability to support both types of recombination. Here we report that one of these mutants with the Leu-486 substituted by Phe did not support nonhomologous recombination. Effect on homologous recombination was mainly on the location and precision of crossover events. The other 2a mutant with Ash-458 substituted by Asp did not negatively affect either type of recombination. Apparently, BMV RNA polymerase participates differently in the two types of recombination events.",

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A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus. / Figlerowicz, M.; Nagy, P. D.; Bujarski, J. J.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 94, No. 5, 04.03.1997, p. 2073-2078.

Research output: Contribution to journal › Article › peer-review

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T1 - A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus

AU - Figlerowicz, M.

AU - Nagy, P. D.

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AB - Brome mosaic bromovirus (BMV), a positive-stranded RNA virus, supports both homologous and nonhomologous RNA recombinations. Two BMV (temperature- sensitive) mutants with alterations in the 2a protein, the putative RNA polymerase component of the viral replicase, were tested for their ability to support both types of recombination. Here we report that one of these mutants with the Leu-486 substituted by Phe did not support nonhomologous recombination. Effect on homologous recombination was mainly on the location and precision of crossover events. The other 2a mutant with Ash-458 substituted by Asp did not negatively affect either type of recombination. Apparently, BMV RNA polymerase participates differently in the two types of recombination events.

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A mutation in the putative RNA polymerase gene inhibits nonhomologous, but not homologous, genetic recombination in an RNA virus

Abstract

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