共查询到20条相似文献,搜索用时 0 毫秒
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Members of the multiple antibiotic resistance regulator (MarR) family control gene expression in a variety of metabolic processes in bacteria and archaea. Hypothetical uricase regulator (HucR), which belongs to the ligand-responsive branch of the MarR family, regulates uricase expression in Deinococcus radiodurans by binding a shared promoter region between uricase and HucR genes. We show here that HucR responds only to urate and, to a lesser extent, to xanthine by attenuated DNA binding, compared to other intermediates of purine degradation. Using molecular-dynamics-guided mutational analysis, we identified the ligand-binding site in HucR. Electrophoretic mobility shift assays and intrinsic Trp fluorescence have identified W20 from the N-terminal helix and R80 from helix 3, which serves as a scaffold for the DNA recognition helix, as being essential for ligand binding. Using structural data combined with in silico and in vitro analyses, we propose a mechanism for the attenuation of DNA binding in which a conformational change initiated by charge repulsion due to a bound ligand propagates to DNA recognition helices. This mechanism may apply generally to MarR homologs that bind anionic phenolic ligands. 相似文献
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Kristin E. Burns Fiona E. McAllister Carsten Schwerdtfeger Julian Mintseris Francisca Cerda-Maira Elke E. Noens Matthias Wilmanns Stevan R. Hubbard Francesco Melandri Huib Ovaa Steven P. Gygi K. Heran Darwin 《The Journal of biological chemistry》2012,287(44):37522-37529
Deamidase of Pup (Dop), the prokaryotic ubiquitin-like protein (Pup)-deconjugating enzyme, is critical for the full virulence of Mycobacterium tuberculosis and is unique to bacteria, providing an ideal target for the development of selective chemotherapies. We used a combination of genetics and chemical biology to characterize the mechanism of depupylation. We identified an aspartate as a potential nucleophile in the active site of Dop, suggesting a novel protease activity to target for inhibitor development. 相似文献
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The truncated hemoglobin of Mycobacterium tuberculosis (Mt-trHbO) is a small heme protein belonging to the hemoglobin superfamily. Truncated hemoglobins (trHbs) are believed to have functional roles such as terminal oxidases and oxygen sensors involved in the response to oxidative and nitrosative stress, nitric oxide (NO) detoxification, O?/NO chemistry, O? delivery under hypoxic conditions, and long-term ligand storage. Based on sequence similarities, they are classified into three groups. Experimental studies revealed that all trHbs display a 2-on-2 α-helical sandwich fold rather than the 3-on-3 α-helical sandwich fold of the classical hemoglobin fold. Using locally enhanced sampling (LESMD) molecular dynamics, the ligand-binding escape pathways from the distal heme binding cavity of Mt-trHbO were determined to better understand how this protein functions. The importance of specific residues, such as the group II and III invariant W(G8) residue, can be seen in terms of ligand diffusion pathways and ligand dynamics. LESMD simulations show that the wild-type Mt-trHbO has three diffusion pathways while the W(G8)F Mt-trHbO mutant has only two. The W(G8) residue plays a critical role in ligand binding and stabilization and helps regulate the rate of ligand escape from the distal heme pocket. Thus, this invariant residue is important in creating ligand diffusion pathways and possibly in the enzymatic functions of this protein. 相似文献
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Valérie Duval Laura M. McMurry Kimberly Foster James F. Head Stuart B. Levy 《Journal of bacteriology》2013,195(15):3341-3351
The Escherichia coli regulator MarR represses the multiple-antibiotic resistance operon marRAB and responds to phenolic compounds, including sodium salicylate, which inhibit its activity. Crystals obtained in the presence of a high concentration of salicylate indicated two possible salicylate sites, SAL-A and SAL-B. However, it was unclear whether these sites were physiologically significant or were simply a result of the crystallization conditions. A study carried out on MarR homologue MTH313 suggested the presence of a salicylate binding site buried at the interface between the dimerization and the DNA-binding domains. Interestingly, the authors of the study indicated a similar pocket conserved in the MarR structure. Since no mutagenesis analysis had been performed to test which amino acids were essential in salicylate binding, we examined the role of residues that could potentially interact with salicylate. We demonstrated that mutations in residues shown as interacting with salicylate at SAL-A and SAL-B in the MarR-salicylate structure had no effect on salicylate binding, indicating that these sites were not the physiological regulatory sites. However, some of these residues (P57, R86, M74, and R77) were important for DNA binding. Furthermore, mutations in residues R16, D26, and K44 significantly reduced binding to both salicylate and 2,4-dinitrophenol, while a mutation in residue H19 impaired the binding to 2,4-dinitrophenol only. These findings indicate, as for MTH313, the presence of a ligand binding pocket located between the dimerization and DNA binding domains. 相似文献
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