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Journal home Aims and scope Current issue Advance Online Publication Web Focuses Archive:- Browse by issue Browse by subject Browse by category Free online sample issue Press releases Authors & Referees Editorial process Guide for authors Submit an article Guide for referees Editorial Team, Senior Advisors and Advisory Editorial Board Contact Editorial office Customer services Subscribe Order sample copy Purchase articles Reprints and permissions Contact NPG Advertising www.embo.org			The EMBO Journal (1999) 18, 3746–3756, doi:10.1093/emboj/18.13.3746 The NES–Crm1p export pathway is not a major mRNA export route in Saccharomyces cerevisiae Megan Neville and Michael Rosbash Howard Hughes Medical Institute, Department of Biology, MS008 Brandeis University, Waltham, MA 02454, USA To whom correspondence should be addressed Michael Rosbash, rosbash@brandeis.edu Received 16 April 1999; Revised 5 May 1999; Accepted 5 May 1999. Abstract Nuclear export signal (NES)-containing proteins are recognized by the NES receptor CRM1/Crm1p (also called exportin 1/Xpo1p). In vertebrates and Schizosaccharomyces pombe, the toxin leptomycin B (LMB) inhibits CRM1-mediated export by interacting directly with CRM1 and disrupting the trimeric Ran-GTP–CRM1–NES export complex. In Saccharomyces cerevisiae, LMB is not toxic and is apparently unable to interact with Crm1p. A second difference between the systems is that LMB has no effect on mRNA export in vertebrate systems, whereas there is evidence that S.cerevisiae Crm1p plays a role in mRNA export. Here we show that a single amino acid change converts S.cerevisiae Crm1p from being LMB insensitive to fully LMB sensitive, indicating that Crm1p is the only relevant LMB target. This new strain has no phenotype, but LMB has a rapid and potent inhibitory effect on NES-mediated export. In situ hybridization assays show that LMB also causes nuclear accumulation of poly(A)+ RNA but with a significant delay compared with the effect on NES-mediated export. Biochemical assays indicate little or no LMB effect on cytoplasmic protein synthesis, indicating that the NES–Crm1p pathway is not a major mRNA export route in S.cerevisiae. We conclude that Crm1p structure and function is conserved from S.cerevisiae to man. Keywords: CRM1, leptomycin B, mRNA export, nuclear export signal, Saccharomyces cerevisiae		Email link to a friend Download PDF Full text Next article Previous article Table of contents Rights and permissions Reprints Register for table of contents by email

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