Journal
JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 283, Issue 11, Pages 7280-7292Publisher
AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.M708742200
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Funding
- NIGMS NIH HHS [GM037731, T32 GM07250] Funding Source: Medline
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The DSX ( Doublesex) transcription factor regulates somatic sexual differentiation in Drosophila. Female and male isoforms ( DSXF and DSXM) are formed due to sex-specific RNA splicing. DNA recognition, mediated by a shared N-terminal zinc module ( the DM domain), is enhanced by a C-terminal dimerization element. Sex-specific extension of this element in DSXF and DSXM leads to assembly of distinct transcriptional preinitiation complexes. Here, we describe the structure of the extended C-terminal dimerization domain of DSXF as determined by multidimensional NMR spectroscopy. The core dimerization element is well ordered, giving rise to a dense network of interresidue nuclear Overhauser enhancements. The structure contains dimer-related UBA folds similar to those defined by x-ray crystallographic studies of a truncated domain. Whereas the proximal portion of the female tail extends helix 3 of the UBA fold, the distal tail is disordered. Ala substitutions in the proximal tail disrupt the sex-specific binding of IX ( Intersex), an obligatory partner protein and putative transcriptional coactivator; IX-DSXF interaction is, by contrast, not disrupted by truncation of the distal tail. Mutagenesis of the UBA-like dimer of DSXF highlights the importance of steric and electrostatic complementarity across the interface. Two temperature-sensitive mutations at this interface have been characterized in yeast model systems. One weakens a network of solvated salt bridges, whereas the other perturbs the underlying nonpolar interface. These mutations confer graded gene-regulatory activity in yeast within a physiological temperature range and so may provide novel probes for genetic analysis of a sex-specific transcriptional program in Drosophila development.
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