Abstract
The 70-kDa heat shock proteins are molecular chaperones that participate in a variety of cellular functions. This chaperone function is stimulated by interaction with hsp40 proteins. The Saccharomyces cerevisiae gene encoding the essential hsp40 homologue, SIS1, appears to function in translation initiation. Mutations in ribosomal protein L39 (rpl39) complement loss-of-function mutations in SIS1 as well as PAB1 (poly(A)-binding protein), suggesting a functional interaction between these proteins. However, while a direct interaction between Sis1 and Pab1 is not detectable, both of these proteins physically interact with the essential Ssa (and not Ssb) family of hsp70 proteins. This interaction is mediated by the variable C-terminal domain of Ssa. Subcellular fractionations demonstrate that the binding of Ssa to ribosomes is dependent upon its C terminus and that its interaction with Sis1 and Pab1 occurs preferentially on translating ribosomes. Consistent with a function in translation, depletion of Ssa protein produces a general translational defect that appears similar to loss of Sis1 and Pab1 function. This translational effect of Ssa appears mediated, at least in part, by its affect on the interaction of Pab1 with the translation initiation factor, eIF4G, which is dramatically reduced in the absence of functional Ssa protein.
Highlights
The 70-kDa heat shock proteins are molecular chaperones that participate in a variety of cellular functions
Pab1 and Sis1 Interact with the hsp70 Protein Ssa—PAB1 and SIS1 share a genetic interaction with RPL39, and their gene products are ribosome-associated proteins that function in translation
Pab1 was not detected in the Sis1 immunoprecipitate, and Sis1 was not detected in the Pab1 immunoprecipitates
Summary
Vol 276, No 17, Issue of April 27, pp. 14426 –14433, 2001 Printed in U.S.A. The Yeast hsp Homologue Ssa Is Required for Translation and Interacts with Sis and Pab on Translating Ribosomes*. While a direct interaction between Sis and Pab is not detectable, both of these proteins physically interact with the essential Ssa (and not Ssb) family of hsp proteins. This interaction is mediated by the variable C-terminal domain of Ssa. Subcellular fractionations demonstrate that the binding of Ssa to ribosomes is dependent upon its C terminus and that its interaction with Sis and Pab occurs preferentially on translating ribosomes. The Ssb and Ssb proteins (referred to collectively as Ssb) are associated with ribosomes and appear to function in binding nascent peptides during translation elongation [8, 9]. A deletion of rpl suppresses the lethal deletion of another essential translation factor, poly(A)-binding protein (PAB1), suggesting that these proteins functionally interact [15]. Depletion of Ssa decreases the association of Pab with eIF4G, suggesting that the translational effect of Ssa is mediated at
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