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Kiyama T Zhang N Dayal S Yun Lee P Liang S Villinski JT Klein WH 《Developmental biology》2005,280(2):436-447
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GalR represses the galP1 promoter by a DNA looping-independent mechanism. Equilibrium binding of GalR and RNA polymerase to DNA, and real-time kinetics of base-pair distortion (isomerization) showed that the equilibrium dissociation constant of RNA polymerase-P1 closed complexes is largely unaffected in the presence of saturating GalR, indicating that mutual antagonism (steric hindrance) of the regulator and the RNA polymerase does not occur at this promoter. In fluorescence kinetics with 2-AP labeled P1 DNA, GalR inhibited the slower of the two-step base-pair distortion process. We isolated a negative control GalR mutant, S29R, which while bound to the operator DNA was incapable of repression of P1. Based on these results and previous demonstration that repression requires the C-terminal domain of the alpha subunit (alpha-CTD) of RNA polymerase, we propose that GalR establishes contact with alpha-CTD at the last resolved isomerization intermediate, forming a kinetic trap. 相似文献
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Ko-Hsin Chin Yen-Chung Lee Chih-Hua Chen Jinn-Moon Yang Yvonne McCarthy Andrew H.-J. Wang 《Journal of molecular biology》2010,396(3):646-662
Cyclic-di-GMP [bis-(3′-5′)-cyclic diguanosine monophosphate] controls a wide range of functions in eubacteria, yet little is known about the underlying regulatory mechanisms. In the plant pathogen Xanthomonas campestris, expression of a subset of virulence genes is regulated by c-di-GMP and also by the CAP (catabolite activation protein)-like protein XcCLP, a global regulator in the CRP/FNR superfamily. Here, we report structural and functional insights into the interplay between XcCLP and c-di-GMP in regulation of gene expression. XcCLP bound target promoter DNA with submicromolar affinity in the absence of any ligand. This DNA-binding capability was abrogated by c-di-GMP, which bound to XcCLP with micromolar affinity. The crystal structure of XcCLP showed that the protein adopted an intrinsically active conformation for DNA binding. Alteration of residues of XcCLP implicated in c-di-GMP binding through modeling studies caused a substantial reduction in binding affinity for the nucleotide and rendered DNA binding by these variant proteins insensitive to inhibition by c-di-GMP. Together, these findings reveal the structural mechanism behind a novel class of c-di-GMP effector proteins in the CRP/FNR superfamily and indicate that XcCLP regulates bacterial virulence gene expression in a manner negatively controlled by the c-di-GMP concentrations. 相似文献
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Yoshiaki Tamanoue Masahiro Yamagishi Ikuko Hongo Harumasa Okamoto 《Development, growth & differentiation》2010,52(5):469-479
All‐trans retinoic acid is a key regulator of early development. High concentrations of retinoic acid interfere with differentiation and migration of neural crest cells. Here we report that a dinucleotide repeat in the cis‐element of Snail2 (previously known as Slug) gene plays a role in repression by all‐trans retinoic acid. We analyzed the cis‐acting regulatory regions of the Xenopus Snail2 gene, whose expression is repressed by all‐trans retinoic acid. The analysis identified a TG/CA repeat as a necessary element for the repression. By performing a yeast one‐hybrid screen, we found that a polypyrimidine tract‐binding protein (PTB), which is known to be a regulator of the alternative splicing of pre‐messenger RNA, binds to the TG/CA repeat. Overexpression and knockdown experiments for PTB in HEK293 cells and Xenopus embryos indicated that PTB is required for repression by retinoic acid. The green fluorescent protein‐PTB fusion protein was localized in the nucleus of 293T cells. In situ hybridization for PTB in Xenopus embryos showed that PTB is expressed at the regions including neural crest at the early stages. Our results indicate that PTB plays a role in the repression of gene expression by retinoic acid through binding to the TG/CA repeats. 相似文献
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