Identification of barley stripe mosaic virus genes involved in viral RNA replication and systemic movement.

AUTOR(ES)

Petty, I T

RESUMO

Barley stripe mosaic hordeivirus (BSMV) has a tripartite positive-sense RNA genome which encodes seven major polypeptides. Infectious in vitro transcripts derived from full-length wild-type and mutant cDNA clones have been used to investigate the contribution made by various BSMV gene products to viral RNA replication and systemic movement. We show that whereas all three of the BSMV RNA components are required for plant infection, RNAs alpha and gamma can replicate together in barley protoplasts, and therefore RNA beta must encode functions required for systemic invasion of plants. The alpha a and gamma a proteins, which contain helicase and RNA polymerase sequence motifs, together comprise the essential virus-encoded components of BSMV RNA replicase. A second BSMV protein (beta b) which contains a helicase motif is not required for RNA replication. A small cysteine-rich protein (gamma b) is dispensable for infection of plants, but in its absence the accumulation of viral coat (beta a) and beta b proteins is significantly reduced. In addition, mutations in both the gamma b and gamma a (replicase) proteins can affect the systemic movement phenotype.

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