The hRPC62 subunit of human RNA polymerase III displays helicase activity.

In Eukaryotes, tRNAs, 5S RNA and U6 RNA are transcribed by RNA polymerase (Pol) III. Human Pol III is composed of 17 subunits. Three specific Pol III subunits form a stable ternary subcomplex (RPC62-RPC39-RPC32α/β) being involved in pre-initiation complex formation. No paralogues for subunits of this subcomplex subunits have been found in Pols I or II, but hRPC62 was shown to be structurally related to the general Pol II transcription factor hTFIIEα. Here we show that these structural homologies extend to functional similarities. hRPC62 as well as hTFIIEα possess intrinsic ATP-dependent 3'-5' DNA unwinding activity. The ATPase activities of both proteins are stimulated by single-stranded DNA. Moreover, the eWH domain of hTFIIEα can replace the first eWH (eWH1) domain of hRPC62 in ATPase and DNA unwinding assays. Our results identify intrinsic enzymatic activities in hRPC62 and hTFIIEα

RNA14 and RNA15 proteins as components of a yeast pre-mRNA 3'-end processing factor

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Cellular localization of RNA14p and RNA15p, two yeast proteins involved in mRNA stability.

International audienceRNA14 and RNA15 were originally identified by temperature-sensitive mutations that cause a rapid decrease in poly(A)-tail length and overall mRNA levels at the restrictive temperature. We have raised antibodies to the RNA14 and RNA15 proteins, and used subcellular fractionation and immunofluorescence to localize these proteins within the yeast cell. RNA14p is a 73 kDa protein found in both the nucleus and the cytoplasm, whilst RNA15p is a 42 kDa protein detected only in the nucleus. The observation that both proteins are found in the nucleus is in agreement with previous genetic data which suggest an interaction between RNA14p and RNA15p. Also the joint nuclear localization is consistent with the biochemical data suggesting a role in polyadenylation. The detection of significant amounts of RNA14p in the cytoplasm opens the possibility of a second function for this protein, either in cytoplasmic regulation of mRNA deadenylation or, more interestingly, in mRNA stability