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The cyclic AMP (cAMP)-cAMP receptor protein complex functions both as an activator and as a corepressor at the tsx-p2 promoter of Escherichia coli K-12.
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P Gerlach L Sgaard-Andersen H Pedersen J Martinussen P Valentin-Hansen E Bremer 《Journal of bacteriology》1991,173(17):5419-5430
The tsx-p2 promoter is one of at least seven Escherichia coli promoters that are activated by the cyclic AMP (cAMP)-cAMP receptor protein (CRP) complex and negatively regulated by the CytR repressor. DNase I footprinting assays were used to study the interactions of these regulatory proteins with the tsx-p2 promoter region and to characterize tsx-p2 regulatory mutants exhibiting an altered response to CytR. We show that the cAMP-CRP activator complex recognizes two sites in tsx-p2 that are separated by 33 bp: a high-affinity site (CRP-1) overlaps the -35 region, and a low-affinity site (CRP-2) is centered around position -74 bp. The CytR repressor protects a DNA segment that is located between the two CRP sites and partially overlaps the CRP-1 target. In combination, the cAMP-CRP and CytR proteins bind cooperatively to tsx-p2, and the nucleoprotein complex formed covers a region of 78 bp extending from the CRP-2 site close to the -10 region. The inducer for the CytR repressor, cytidine, does not prevent in vitro DNA binding of CytR, but releases the repressor from the nucleoprotein complex and leaves the cAMP-CRP activator bound to its two DNA targets. Thus, cytidine interferes with the cooperative DNA binding of cAMP-CRP and CytR to tsx-p2. We characterized four tsx-p2 mutants exhibiting a reduced response to CytR; three carried mutations in the CRP-2 site, and one carried a mutation in the region between CRP-1 and the -10 sequence. Formation of the cAMP-CRP-CytR DNA nucleoprotein complex in vitro was perturbed in each mutant. These data indicate that the CytR repressor relies on the presence of the cAMP-CRP activator complex to regulate tsx-p2 promoter activity and that the formation of an active repression complex requires the combined interactions of cAMP-CRP and CytR at tsx-p2. 相似文献
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The bx region enhancer, a distant cis-control element of the Drosophila Ubx gene and its regulation by hunchback and other segmentation genes. 总被引:22,自引:11,他引:11
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The Drosophila homeotic gene Ultrabithorax (Ubx) is regulated by complex mechanisms that specify the spatial domain, the timing and the activity of the gene in individual tissues and in individual cells. In early embryonic development, Ubx expression is controlled by segmentation genes turned on earlier in the developmental hierarchy. Correct Ubx expression depends on multiple regulatory sequences located outside the basal promoter. Here we report that a 500 bp DNA fragment from the bx region of the Ubx unit, approximately 30 kb away from the promoter, contains one of the distant regulatory elements (bx region enhancer, BRE). During early embryogenesis, this enhancer element activates the Ubx promoter in parasegments (PS) 6, 8, 10, and 12 and represses it in the anterior half of the embryo. The repressor of the anterior Ubx expression is the gap gene hunchback (hb). We show that the hb protein binds to the BRE element and that such binding is essential for hb repression in vivo, hb protein also binds to DNA fragments from abx and bxd, two other regulatory regions of the Ubx gene. We conclude that hb represses Ubx expression directly by binding to BRE and probably other Ubx regulatory elements. In addition, the BRE pattern requires input from other segmentation genes, among them tailless and fushi tarazu but not Krüppel and knirps. 相似文献
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The Drosophila zeste protein binds cooperatively to sites in many gene regulatory regions: implications for transvection and gene regulation. 总被引:14,自引:6,他引:8
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The Drosophila zeste protein binds in vitro to several sites in the white, Ultrabithorax, decapentaplegic, Antennapedia, and engrailed genes and to at least one site in the zeste gene itself. The distribution of these sites corresponds often with that of regulatory elements in these genes as defined by mutations or, in the case of white, by molecular analysis. A zeste binding site is frequently found in the immediate vicinity of the promoter. zeste binding sites are composed of two or more zeste recognition sequences T/CGAGT/CG. Isolated consensus sequences do not bind or footprint. Cooperative interactions are involved both in binding to a given site and between proteins bound at independent sites. zeste bound to one DNA molecule can in fact bind simultaneously to another DNA molecule. These results suggest a general role for zeste in bringing together distant regulatory elements controlling the activity of a target gene. In this model, transvection effects are a by-product of normal intragenic zeste action. 相似文献
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The Drosophila P-element KP repressor protein dimerizes and interacts with multiple sites on P-element DNA. 总被引:5,自引:0,他引:5
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Drosophila P elements are mobile DNA elements that encode an 87-kDa transposase enzyme and transpositional repressor proteins. One of these repressor proteins is the 207-amino-acid KP protein which is encoded by a naturally occurring P element with an internal deletion. To study the molecular mechanisms by which KP represses transposition, the protein was expressed, purified, and characterized. We show that the KP protein binds to multiple sites on the ends of P-element DNA, unlike the full-length transposase protein. These sites include the high-affinity transposase binding site, an 11-bp transpositional enhancer, and, at the highest concentrations tested, the terminal 31-hp inverted repeats. The DNA binding domain was localized to the N-terminal 98 amino acids and contains a CCHC sequence, a potential metal binding motif. We also demonstrate that the KP repressor protein can dimerize and contains two protein-protein interaction regions and that this dimerization is essential for high-affinity DNA binding. 相似文献