Evidence for Multiple Promoter Elements Orchestrating Male-Specific Regulation of the her-1 Gene in Caenorhabditis elegans

Evidence for Multiple Promoter Elements Orchestrating Male-Specific Regulation of the her-1 Gene in Caenorhabditis elegans

Weiqing Li^a, Adrian Streit^a, Barbara Robertson^a, and William B. Wood^a
^a Department of Molecular, Cellular, and Developmental Biology, University of Colorado, Boulder, Colorado 80309-0347

Corresponding author: William B. Wood, Department of MCD Biology, Porter Biosciences Rm. 058, University of Colorado, Boulder, CO 80309-0347.

Communicating editor: R. K. HERMAN

The sex-determining gene her-1 is required for male developmentin Caenorhabditis elegans. In XO males, two her-1 mRNAs, her-1aand her-1b, are transcribed from two separate promoters: P1,located in the 5'-flanking region, and P2, located in the largesecond intron. In XX hermaphrodites, accumulation of both her-1transcripts is repressed by the sdc genes, which in turn arenegatively regulated by the xol-1 gene. When introduced intoa xol-1(y9) background, transgenic arrays, including 3.4 kbof her-1 intron 2 sequence (P2), result in phenotypes that mimicthose of sdc(lf) mutants, including suppression of XO lethalityand masculinization of both XX and XO animals. The masculinization,but not the suppression of XO lethality, is dependent on endogenousher-1 activity. These effects could therefore result from sequestration(titration) of sdc gene products by sequences in the arrays,causing derepression of her-1 (masculinizing effect) and disruptionof the dosage compensation machinery (allowing survival of XOanimals). We used these effects as an assay in a deletion analysisof the two her-1 promoter regions to define potential cis-regulatorysites required for the putative titration. Several regions inP2 contributed to these effects. P1 was effective only in combinationwith certain P2 sequences and only if a particular P1 site previouslyimplicated in her-1 repression was intact. These results suggestthat normal repression of transcription from P1 in XX animalsmay involve cooperative interaction with sequences in the P2region. In experiments to test for a possible role of the her-1btranscript in regulation of sdc genes, no significant effectscould be demonstrated.

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