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Splicing factor SF1 from Drosophila and Caenorhabditis: Presence of an N-terminal RS domain and requirement for viability

Published online by Cambridge University Press:  28 August 2001

RACHID MAZROUI
Affiliation:
Département de Biologie Cellulaire, Université de Genève, 1211 Genève 4, Switzerland
ALESSANDRO PUOTI
Affiliation:
Institut de Zoologie, Université de Fribourg Pérolles, CH-1700 Fribourg, Switzerland
ANGELA KRÄMER
Affiliation:
Département de Biologie Cellulaire, Université de Genève, 1211 Genève 4, Switzerland
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Abstract

Splicing factor SF1 contributes to the recognition of the 3′ splice site by interacting with U2AF65 and binding to the intron branch site during the formation of the early splicing complex E. These interactions and the essential functional domains of SF1 are highly conserved in Saccharomyces cerevisiae. We have isolated cDNAs encoding SF1 from Drosophila (Dm) and Caenorhabditis (Ce). The encoded proteins share the U2AF65 interaction domain, a hnRNP K homology domain, and one or two zinc knuckles required for RNA binding as well as Pro-rich C-terminal sequences with their yeast and mammalian counterparts. In contrast to SF1 in other species, DmSF1 and CeSF1 are characterized by an N-terminal region enriched in Ser, Arg, Lys, and Asp residues with homology to the RS domains of several splicing proteins. These domains mediate protein–protein or protein–RNA interactions, suggesting an additional role for DmSF1 and CeSF1 in pre-mRNA splicing. Human (Hs), fly, and worm SF1 interact equally well with HsU2AF65 or the Drosophila homolog DmU2AF50. Moreover, DmSF1 lacking its N terminus is functional in prespliceosome formation in a HeLa splicing system, emphasizing the conserved nature of interactions at an early step in spliceosome assembly. The Ce-SF1 gene is located in a polycistronic transcription unit downstream of the genes encoding U2AF35 (uaf-2) and a cyclophilin (cyp-13), implying the coordinate transcriptional regulation of these genes. Injection of double-stranded RNA into C. elegans results in embryonic lethality; thus, the SF1 gene is essential not only in yeast but also in at least one metazoan.

Type
Research Article
Copyright
1999 RNA Society

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