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Common binding by redundant group B Sox proteins is evolutionarily conserved in Drosophila.


Type

Article

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Authors

Carl, Sarah H 

Abstract

Background: Group B Sox proteins are a highly conserved group of transcription factors that act extensively to coordinate nervous system development in higher metazoans while showing both co-expression and functional redundancy across a broad group of taxa. In Drosophila melanogaster, the two group B Sox proteins Dichaete and SoxNeuro show widespread common binding across the genome. While some instances of functional compensation have been observed in Drosophila, the function of common binding and the extent of its evolutionary conservation is not known. Results: We used DamID-seq to examine the genome-wide binding patterns of Dichaete and SoxNeuro in four species of Drosophila. Through a quantitative comparison of Dichaete binding, we evaluated the rate of binding site turnover across the genome as well as at specific functional sites. We also examined the presence of Sox motifs within binding intervals and the correlation between sequence conservation and binding conservation. To determine whether common binding between Dichaete and SoxNeuro is conserved, we performed a detailed analysis of the binding patterns of both factors in two species. Conclusion: We find that, while the regulatory networks driven by Dichaete and SoxNeuro are largely conserved across the drosophilids studied, binding site turnover is widespread and correlated with phylogenetic distance. Nonetheless, binding is preferentially conserved at known cis-regulatory modules and core, independently verified binding sites. We observed the strongest binding conservation at sites that are commonly bound by Dichaete and SoxNeuro, suggesting that these sites are functionally important. Our analysis provides insights into the evolution of group B Sox function, highlighting the specific conservation of shared binding sites and suggesting alternative sources of neofunctionalisation between paralogous family members.

Description

Keywords

Sox, Dichaete, SoxNeuro, Drosophila, Redundancy, Transcription factor binding, Conservation

Journal Title

BMC Genomics

Conference Name

Journal ISSN

1471-2164
1471-2164

Volume Title

16

Publisher

BioMed Central
Sponsorship
National Human Genome Research Institute (NHGRI) (U01HG004264)
This work was supported by a Wellcome Trust 4-year Ph.D. studentship and a Cambridge Overseas Trust studentship to S.C. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. We thank Tony Southall for providing the pUAST-Dam vector and Enrico Ferrero for providing the pUAST-SoxNDam vector. We also thank Ernst Wimmer for providing the pSLfa1180fa vector, the pBac3xP3-EGFP vector and the piggyBac transposase helper plasmid. We are indebted to Sang Chan for performing microinjections and to Bettina Fischer for support in the lab and insightful discussions about data analysis.