Gradients of regulatory factors are essential for establishing precise patterns of gene expression during development; however, it is not clear how patterning information in multiple gradients is integrated to generate complex body plans. Here we show that opposing gradients of two Drosophila transcriptional repressors, Hunchback (Hb) and Knirps (Kni), position several segments by differentially repressing two distinct regulatory regions (enhancers) of the pair-rule gene even-skipped (eve). Computational and in vivo analyses suggest that enhancer sensitivity to repression is controlled by the number and affinity of repressor-binding sites. Because the kni expression domain is positioned between two gradients of Hb, each enhancer directs expression of a pair of symmetrical stripes, one on each side of the kni domain. Thus, only two enhancers are required for the precise positioning of eight stripe borders (four stripes), or more than half of the whole eve pattern. Our results show that complex developmental expression patterns can be generated by simple repressor gradients. They also support the utility of computational analyses for defining and deciphering regulatory information contained in genomic DNA.
We describe the characterization of several transcripts of the Drosophila serine/threonine protein kinase 61 (Dstpk61) gene. Dstpk61 produces at least four transcripts, including a 3.0-kb testis-specific transcript, a 4.5-kb female-specific carcass transcript, a 3.5-kb ovary-specific transcript, and a 4.7-kb non-sex-specific transcript. Two cDNAs, a 4.5-kb cDNA (cDNA B ) and a 3.0-kb cDNA (cDNA A ), likely to correspond to either the non-specific or the female-specific carcass and the testis-specific transcript, respectively, were fully sequenced and found to encode a novel OPA-repeat-containing serine/threonine-specific protein kinase. cDNA A and cDNA B both contain the entire ORF that encodes this predicted protein, but differ in the untranslated regions. The cDNAs contain translational control elements which are found in transcripts under male germline-specific translational control, and doublesexlike 13-nucleotide repeat elements, which are required for transformer/transformer-2-mediated splicing of the female doublesex transcript. The complex tissue and sex-specific transcripts, differing in the untranslated regions which are likely to be crucial in translational control, suggest that this kinase may have both general and sex-specific functions. The protein is homologous to human 3-phosphoinositide dependent protein kinase, which is involved in transduction of insulin signalling.
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