Abstract
BackgroundAlternative splicing plays an important role in generating molecular and functional diversity in multi-cellular organisms. RNA binding proteins play crucial roles in modulating splice site choice. The majority of known binding sites for regulatory proteins are short, degenerate consensus sequences that occur frequently throughout the genome. This poses an important challenge to distinguish between functionally relevant sequences and a vast array of those occurring by chance.Methodology/Principal FindingsHere we have used a computational approach that combines a series of biological constraints to identify uridine-rich sequence motifs that are present within relevant biological contexts and thus are potential targets of the Drosophila master sex-switch protein Sex-lethal (SXL). This strategy led to the identification of one novel target. Moreover, our systematic analysis provides a starting point for the molecular and functional characterization of an additional target, which is dependent on SXL activity, either directly or indirectly, for regulation in a germline-specific manner.Conclusions/SignificanceThis approach has successfully identified previously known, new, and potential SXL targets. Our analysis suggests that only a subset of potential SXL sites are regulated by SXL. Finally, this approach should be directly relevant to the large majority of splicing regulatory proteins for which bonafide targets are unknown.
Highlights
Intervening sequences called introns interrupt the majority of genes in multi-cellular organisms
Previously known targets of SXL have exclusively sex-specific functions, it is not unreasonable to expect that certain targets could have both non-sex-specific and sexspecific functions at different times or in different tissues during development
Whereas certain mutations in the Drosophila PTB and the class VI unconventional myosin 95F are lethal, others affect spermatogenesis, resulting in a male-sterile phenotype indicating that a gene can have both non-sex-specific and sex-specific function and/or regulation [36,37,38]
Summary
Intervening sequences called introns interrupt the majority of genes in multi-cellular organisms. We have used a computational approach that combines a series of biological constraints to identify uridine-rich sequence motifs that are present within relevant biological contexts and are potential targets of the Drosophila master sex-switch protein Sex-lethal (SXL). This strategy led to the identification of one novel target. Our analysis suggests that only a subset of potential SXL sites are regulated by SXL This approach should be directly relevant to the large majority of splicing regulatory proteins for which bonafide targets are unknown
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