The SR-like protein Npl3 transfers mRNP components from the transcription site onto the mRNA
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ABSTRACT: In order to determine specifically the RNA-binding function of proteins involved in nuclear mRNP assembly, we first determined the amino acids involved in RNA-binding by RNPXL. We identified about 100 amino acids cross-linked to RNA in vivo in the nuclear mRNP components Npl3, Nab2, Tho1, Mex67-Mtr2 and the TREX complex. Second, we can now specifically elucidate the function of the RNA-binding activity of these proteins by mutation of the identified amino acids. Npl3 is an SR-like protein with functions in transcription elongation, splicing, 3’ end processing, mRNP assembly and nuclear mRNA export. The middle part of Npl3 consists of two RNA recognition motif (RRM) domains, RRM1 and RRM2, connected by an eight amino acid long flexible linker. In order to analyze the function of the RNA-binding activity of Npl3, we mutated several amino acids that cross-linked to RNA. We generated three npl3 mutants, one in the RRM1, one in the linker and a third in the RRM2 domain, and elucidated the functional consequences of these mutations. Interestingly, these three npl3 mutants show different phenotypes. Thus, abrogation of mRNA-binding in different regions of Npl3 has different functional outcomes. Furthermore, analysis of the npl3-Linker mutant revealed a novel function of Npl3. Npl3 functions in the transfer of nuclear mRNP components from the site of transcription onto the mRNA. Taken together, we identify the in vivo RNA-binding sites of nuclear mRNA-binding proteins involved in mRNP assembly and nuclear mRNA export. In addition, we show that abrogation of RNA-binding in different regions of the protein Npl3 has specific and surprisingly different functional consequences. Furthermore, we uncovered a novel function of Npl3 in nuclear mRNP assembly.
ORGANISM(S): Saccharomyces cerevisiae
PROVIDER: GSE160709 | GEO | 2022/11/26
REPOSITORIES: GEO
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