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The first ATPase domain of the yeast 246-kDa protein is required for in vivo unwinding of the U4/U6 duplex

Published online by Cambridge University Press:  01 July 1999

DONG-HO KIM
Affiliation:
Department of Molecular Biology, Beckman Research Institute of the City of Hope, Duarte, California 91010-3011, USA
JOHN J. ROSSI
Affiliation:
Department of Molecular Biology, Beckman Research Institute of the City of Hope, Duarte, California 91010-3011, USA Graduate School of Biological Sciences, City of Hope, and Beckman Research Institute of the City of Hope, Duarte, California 91010-3011, USA
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Abstract

The yeast PRP44 gene, alternatively named as BRR2, SLT22, RSS1, or SNU246, encodes a 246-kDa protein with putative RNA helicase function during pre-mRNA splicing. The protein is a typical DEAD/H family member, but unlike most other members of this family, it contains two putative RNA helicase domains, each with a highly conserved ATPase motif. Prior to this study little was known about functional roles for these two domains. We present genetic and biochemical evidence that ATPase motifs of only the first helicase domain are required for cell viability and pre-mRNA splicing. Overexpression of mutations in the first domain results in a dominant negative phenotype, and extracts from these mutant strains inhibit in vitro pre-mRNA splicing. In vitro analyses of affinity purified proteins revealed that only the first helicase domain possesses poly (U)-dependent ATPase activity. Overexpression of a dominant negative protein in vivo reduces the relative abundance of free U4 and U6 snRNA with a concomitant accumulation of the U4/U6 duplex. Accumulation of the U4/U6 duplex was relieved by overexpression of wild-type Prp44p. Three DEAD/H box proteins, Prp16p, Prp22p and Prp44p, have previously been shown to affect U4/U6 unwinding activity in vitro. The possible role of these proteins in mediating this reaction in vivo was explored following induced expression of ATPase domain mutants in each of these. Although overexpression of the mutant form of either Prp16p, Prp22p, or Prp44p was lethal, only expression of the mutant Prp44p resulted in accumulation of the U4/U6 helix. Our results, when combined with previously published in vitro results, support a direct role for Prp44p in unwinding of the U4/U6 helix.

Type
Research Article
Copyright
© 1999 RNA Society

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