Distinct Regions of the Mouse Cyclin A1 Gene, Ccna1, Confer Male Germ-Cell Specific Expression and Enhancer Function

doi:10.1095/biolreprod.104.030387

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BOR - Papers in Press, published online ahead of print June 23, 2004.
Biol Reprod 2004, 10.1095/biolreprod.104.030387

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Submitted April 1, 2004
Returned for revision April 16, 2004
Accepted June 2, 2004

Testis

Distinct Regions of the Mouse Cyclin A1 Gene, Ccna1, Confer Male Germ-Cell Specific Expression and Enhancer Function

Karen M. Lele and Debra J. Wolgemuth ^*

^* To whom correspondence should be addressed. E-mail: djw3{at}columbia.edu.

Abstract
The gene encoding mouse cyclin A1, Ccna1, is expressed at highestlevels in late pachytene-diplotene spermatocytes, where it isrequired for meiotic cell division. To begin to understandthe mechanisms responsible for its highly restricted patternof expression, transgenic mouse lines carrying constructs consistingof the cyclin A1 regulatory region fused with the reporter genelacZ were generated. Analysis of tissue-specific and testicularcell type-specific transgene expression indicated that sequenceswithin -1.3 kb of the cyclin A1 putative transcriptional startsite were sufficient to direct transgene expression uniquelyto late spermatocytes while maintaining repression in othertissues. However, sequences located between -4.8 kb and -1.3kb of the putative transcriptional start site were apparentlyrequired to transcribe the reporter at levels needed for consistentX-gal staining. Comparison of the mouse, rat and human proximalpromoters revealed regions of high sequence conservation andconsensus sequences both for known transcripton factors, someof which are co-expressed with Ccna1, such as A-myb and Hsf2,and for elements that control expression of genes in somaticcell cycles, such as CDE, CHR, and CCAAT elements. Thus, thepromoter region within 1.3 kb upstream of the putative Ccna1transcriptional start can direct expression of lacZ to spermatocytes,while sequences located between -4.8 kb and -1.3 kb of the putativetranscriptional start site may enhance expression of lacZ.

Key words: Testis • Gene regulation • Kinases • Meiosis • Spermatogenesis

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