Leonie U. Hempel scite author profile

Primary sex determination “switches” evolve rapidly, but Doublesex (DSX) related transcription factors (DMRTs) act downstream of these switches to control sexual development in most animal species. Drosophila dsx encodes female- and male-specific isoforms (DSXF and DSXM), but little is known about how dsx controls sexual development, whether DSXF and DSXM bind different targets, or how DSX proteins direct different outcomes in diverse tissues. We undertook genome-wide analyses to identify DSX targets using in vivo occupancy, binding site prediction, and evolutionary conservation. We find that DSXF and DSXM bind thousands of the same targets in multiple tissues in both sexes, yet these targets have sex- and tissue-specific functions. Interestingly, DSX targets show considerable overlap with targets identified for mouse DMRT1. DSX targets include transcription factors and signaling pathway components providing for direct and indirect regulation of sex-biased expression.

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Sex-specific DoublesexM expression in subsets of Drosophilasomatic gonad cells

Hempel

Oliver

2007

BMC Dev Biol

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Spermatogenesis

Renkawitz‐Pohl

Hempel

Hollmann

et al. 2005

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In Drosophila, don juan and don juan like encode proteins of the spermatid nucleus and the flagellum and both are regulated at the transcriptional level by the TAF_II80 cannonball while translational repression is achieved by distinct elements

Hempel

Rathke

Raja

et al. 2006

Developmental Dynamics

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The genes don juan (dj) and don juan like (djl) encode basic proteins expressed in the male germline. Both proteins show a similar expression pattern being localized in the sperm heads during chromatin condensation and along the flagella. Prematurely expressed Don Juan-eGFP and Myc-Don Juan Like localize to the cytoplasm of spermatocytes and in mitochondrial derivatives from the nebenkern stage onward suggesting that both proteins associate with the mitochondria along the flagella in elongated spermatids. Premature expression of Myc-Don Juan Like does not impair spermatogenesis where-as Don Juan-eGFP when prematurely expressed causes male sterility as spermatids fail to individualize. In spite of the sequence identity of 72% on the nucleotide level and 42% on the protein level, the presumptive promoter regions and the untranslated regions of the mRNA are diverged. Our in vivo analysis revealed that don juan and don juan like are transcriptionally and translationally controlled by distinct short cis regulatory regions. Transcription of don juan and don juan like depends on the male germ line specific TAF II 80, Cannonball (Can). Translational repression elements for both mRNAs are localized in the 5 UTR and are capable to form distinct secondary structures in close proximity to the translational initiation codon.

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Leonie U. Hempel

Sex- and Tissue-Specific Functions of Drosophila Doublesex Transcription Factor Target Genes

Sex-specific DoublesexM expression in subsets of Drosophilasomatic gonad cells

Spermatogenesis

In Drosophila, don juan and don juan like encode proteins of the spermatid nucleus and the flagellum and both are regulated at the transcriptional level by the TAF_II80 cannonball while translational repression is achieved by distinct elements

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About

Leonie U. Hempel

Sex- and Tissue-Specific Functions of Drosophila Doublesex Transcription Factor Target Genes

Sex-specific DoublesexM expression in subsets of Drosophilasomatic gonad cells

Spermatogenesis

In Drosophila, don juan and don juan like encode proteins of the spermatid nucleus and the flagellum and both are regulated at the transcriptional level by the TAFII80 cannonball while translational repression is achieved by distinct elements

Contact Info

Product

Resources

About

In Drosophila, don juan and don juan like encode proteins of the spermatid nucleus and the flagellum and both are regulated at the transcriptional level by the TAF_II80 cannonball while translational repression is achieved by distinct elements