Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0026918 (Mycobacterium)
52,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mycobacterium tuberculosis is the cause of tuberculosis in humans, a disease that affects over a one-third of the world's population. This slow-growing pathogen has only one ribosomal RNA operon, thus making its transcriptional apparatus a fundamentally interesting target for drug discovery. NusA binds to RNA polymerase and modulates several of the ribosomal RNA transcriptional processes. Here, we report the crystal structure of NusA, and reveal that the molecule consists of four domains. They are organised as two distinct entities. The N-terminal domain (residues 1 to 99) that resembles the B chain of the Rad50cd ATP binding cassette-ATPase (ABC-ATPase) and a C-terminal module (residues 108 to 329) consisting of a ribosomal S1 protein domain followed by two K homology domains. The S1 and KH domains are tightly integrated together to form an extensive RNA-binding structure, but are flexibly tethered to the N-terminal domain. The molecule's surfaces and architecture provide insights into RNA and polymerase interactions and the mechanism of pause site discrimination. They also allow us to rationalize certain termination-defective and cold shock-sensitive mutations in the nusA gene that have been studied in Escherichia coli.
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PMID:Crystal structure of the transcription elongation/anti-termination factor NusA from Mycobacterium tuberculosis at 1.7 A resolution. 1174 25

The biochemical aspects of the initiation of DNA replication in Mycobacterium avium are unknown. As a first step towards understanding this process, M. avium DnaA protein, the counterpart of Escherichia coli replication initiator protein, was overproduced in E. coli with an N-terminal histidine tag and purified to homogeneity on a nickel affinity column. The recombinant DnaA protein bound both ATP and ADP with high affinity and showed a weak ATPase activity. ADP, following the hydrolysis of ATP, remained bound to the protein strongly and the exchange of ATP for bound ADP was found to be weak. Acidic phospholipids such as phosphatidylinositol, phosphatidylglycerol, and cardiolipin, promoted the dissociation of ADP from the DnaA protein, whereas the neutral phospholipid, phosphatidylethanolamine, did not. The phospholipid promoted dissociation of ADP from DnaA protein was stimulated in the presence of the M. avium origin of replication. We suggest that the initiation of DNA replication in M. avium involves an interplay among DnaA, adenine nucleotides and phospholipids.
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PMID:Phospholipids promote dissociation of ADP from the Mycobacterium avium DnaA protein. 1182 Sep 35

The sequencing data were analyzed for two regions of the 120-MDa plasmid (p120) of Azospirillum brasilense Sp245. The 2420-bp region I, which flanks the omegon insertion in the SK048 mutant defective in production of the polar flagellum (Fla-) and swarming (Swa-), was shown to contain a cluster of two open reading frames (orf) that possess properties of coding sequences (CDSs). The NtrA (sigma 54) boxes were found in their upstream regions. The products of orf1 and orf2 are 16.5 and 15.5 kDa in molecular weight and consist of 151 and 152 amino-acid residues, respectively. The PRF1 polypeptide was found to contain a region homologous to the cysteine- and glycine-rich zinc-binding domain of the DnaJ heat-shock protein. ORF2 showed a homology to Haemophilus ducreyi pilin, fragments of Streptomyces and Mycobacterium integral membrane proteins, and eukaryotic transcriptional regulators. The omegon proved to be inserted into orfX1/X2 which possibly has a deletion and shows a GC content untypical for A. brasilense genes. The deduced ORFX2 polypeptide is homologous to fragments of arsenite-translocating ATPase and signal-transducing histidine kinase of archaebacteria. Possible causes of the Fla-Swa- phenotype of the A. brasilense SK048 mutant are considered. One coding orf was identified in the 1194-bp region II located approximately 4 kb away from the omegon insertion. The N-terminal region of the deduced product of this partly sequenced orf was shown to contain a signal sequence typical for secreted proteins.
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PMID:[Characteristics of genes identified in the 120 MDa plasmid DNA in a mutant of Azospirillum brasilense Sp245 bacteria, defective in polar flagellation and swarming]. 1185 90

The biochemical aspects of the initiation of DNA replication in Mycobacterium tuberculosis are unknown. To understand this process, we overproduced, purified and characterized the recombinant M. tuberculosis DnaA protein. The M. tuberculosis DnaA protein binds the origin of replication (oriC), ATP and ADP, and exhibited weak ATPase activity. ADP, after hydrolysis of ATP, remained strongly associated with DnaA and the exchange of ATP for bound ADP was weak. Vesicles prepared from acidic phospholipids, such as phosphatidylinositol, cardiolipin and phosphatidylglycerol, promoted dissociation of both ADP and ATP, whereas the neutral phospholipid phosphatidylethanolamine did not. The phospholipid-mediated dissociation of ATP was decreased in the presence of the M. tuberculosis oriC, whereas dissociation of ADP was stimulated in the presence of oriC. Acidic phospholipids in micelles, however, were not efficient in dissociating bound nucleotides from DnaA. Together, these results suggest that both polar head groups and membrane bilayer structure play an important role in M. tuberculosis DnaA-adenine-nucleotide interactions. We suggest that initiation of M. tuberculosis oriC involves intimate interactions between DnaA, adenine nucleotides and membrane phospholipids, and the latter helps to ensure that only the ATP form of the DnaA protein interacts continuously with oriC.
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PMID:Modulation of Mycobacterium tuberculosis DnaA protein-adenine-nucleotide interactions by acidic phospholipids. 1193 58

ESAT-6 is a small secreted protein of unknown function from Mycobacterium tuberculosis that is of fundamental importance in virulence and protective immunity. A PSI-BLAST search has identified distant homologues of ESAT-6 in more tractable bacteria, including Bacillus subtilis, Bacillus anthracis, Staphylococcus aureus and Clostridium acetobutylicum. The genes for ESAT-6-like proteins often cluster with genes encoding homologues of B. subtilis YukA. I speculate that the ESAT-6-like and YukA-like proteins form a novel Gram-positive secretion system potentially driven by the FtsK/SpoIIIE ATPase domains in the YukA-like proteins. The way is now open to investigate this hypothesis in organisms that are easier to manipulate than pathogenic mycobacteria.
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PMID:The ESAT-6/WXG100 superfamily -- and a new Gram-positive secretion system? 1197 44

A rapid single step immunoaffinity purification procedure is described for Mycobacterium smegmatis DNA gyrase. The mycobacterial enzyme is a 340 kDa heterotetrameric protein comprising two subunits each of GyrA and GyrB, exhibiting subtle differences and similarities to the well-characterised Escherichia coli gyrase. In contrast to E.coli gyrase, the M.smegmatis enzyme exhibits strong decatenase activity at physiological Mg2+ concentrations. Further, the enzymes exhibited marked differences in ATPase activity, DNA binding characteristics and susceptibility to fluoroquinolones. The holoenzyme showed very low intrinsic ATPase activity and was stimulated 20-fold in the presence of DNA. The DNA-stimulated ATPase kinetics revealed apparent K0.5 and kcat of 0.68 mM and 0.39 s(-1), respectively. The dissociation constant for DNA was found to be 9.2 nM, which is 20 times weaker than that of E.coli DNA gyrase. The differences between the enzymes were further substantiated as they exhibited varied sensitivity to moxifloxacin and ciprofloxacin. In spite of these differences, mycobacterial DNA gyrase is a functionally and mechanistically conserved enzyme and the variations in activity seem to reflect functional optimisation for its physiological role during mycobacterial genome replication.
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PMID:Functional characterisation of mycobacterial DNA gyrase: an efficient decatenase. 1200 Aug 34

NmtR from Mycobacterium tuberculosis is a new member of the ArsR-SmtB family of metal sensor transcriptional repressors. NmtR binds to the operator-promoter of a gene encoding a P(1) type ATPase (NmtA), repressing transcription in vivo except in medium supplemented with nickel or, to some extent, cobalt. In a cyanobacterial host, Synechococcus PCC 7942 strain R2-PIM8(smt), NmtR-mediated repression is alleviated by cobalt but not nickel or zinc addition, while the related sensor SmtB responds exclusively to zinc. Quantification of the number of atoms of nickel per cell shows that NmtR nickel sensitivity correlates with cytosolic nickel contents. Differential metal discrimination in a common cytosol by SmtB (zinc) and NmtR (cobalt) is not simply explained by affinities at equilibrium; although NmtR does bind nickel substantially more tightly than SmtB, it has a higher affinity for zinc than for cobalt and binds cobalt more weakly than SmtB. SmtB is known to bind and sense zinc at interhelical four-coordinate, tetrahedral sites across the C-terminal alpha 5 helices, while absorption spectroscopy of Co(II)- and Ni(II)-substituted NmtR reveals five- and six-coordinate metal complexes. Site-directed mutagenesis identifies six potential cobalt/nickel ligands that are obligatory for inducer recognition but not repression by NmtR, four of which (Asp(91), His(93), His(104), His(107)) align with alpha 5 ligands of SmtB with two additional His provided by a carboxyl-terminal "extension" (designated alpha 5C). Gel retardation assays reveal that zinc does not allosterically regulate NmtR-DNA binding at concentrations where lower affinity cobalt does. These data suggest that two additional ligands form hexacoordinate metal complexes and are crucial for driving allosteric regulation of DNA binding by NmtR, thereby allowing NmtR to preferentially sense metals that favor higher coordination numbers relative to SmtB.
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PMID:A nickel-cobalt-sensing ArsR-SmtB family repressor. Contributions of cytosol and effector binding sites to metal selectivity. 1216 8

Mycobacterium tuberculosis RecA intein (PI-MtuI), a LAGLIDADG homing endonuclease, displays dual target specificity in response to alternative cofactors. While both ATP and Mn(2+) were required for optimal cleavage of an inteinless recA allele (hereafter referred to as cognate DNA), Mg(2+) alone was sufficient for cleavage of ectopic DNA sites. In this study, we have explored the ability of PI-MtuI to catalyze ATP hydrolysis in the presence of alternative metal ion cofactors and DNA substrates. Our results indicate that PI-MtuI displays maximum ATPase activity in the presence of cognate but not ectopic DNA. Kinetic analysis revealed that Mn(2+) was able to stimulate PI-MtuI catalyzed ATP hydrolysis, whereas Mg(2+) failed to do so. Using UV crosslinking, limited proteolysis and amino acid sequence analysis, we show that (32)P-labeled ATP was bound to a 14 kDa peptide containing the putative Walker A motif. Furthermore, the limited proteolysis approach disclosed that cognate DNA was able to induce structural changes in PI-MtuI. Mutation of the presumptive metal ion-binding ligands (Asp122 and Asp222) in the LAGLIDADG motifs of PI-MtuI impaired its affinity for ATP, thus resulting in a reduction in or loss of its endonuclease activity. Together, these results suggest that PI-MtuI is a (cognate) DNA- and Mn(2+)-dependent ATPase, unique from the LAGLIDADG family of homing endonucleases, and implies a possible role for ATP hydrolysis in the recognition and/or cleavage of homing site DNA sequence.
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PMID:Mycobacterium tuberculosis RecA intein, a LAGLIDADG homing endonuclease, displays Mn(2+) and DNA-dependent ATPase activity. 1285 36

The nucleotide-binding subunit of phosphate-specific transporter (PstB) from mesophilic bacterium, Mycobacterium tuberculosis, is a unique ATP-binding cassette (ABC) ATPase because of its unusual ability to hydrolyze ATP at high temperature. In an attempt to define the basis of thermostability, we took a theoretical approach and compared amino acid composition of this protein to that of other PstBs from available bacterial genomes. Interestingly, based on the content of polar amino acids, this protein clustered with the thermophiles.
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PMID:Intrinsic contributions of polar amino acid residues toward thermal stability of an ABC-ATPase of mesophilic origin. 1293 Oct 11

We report a cadmium- and lead-detecting transcriptional repressor from Mycobacterium tuberculosis designated CmtR. Two genes were co-transcribed with cmtR, one encoding a deduced P1 type ATPase. Purified CmtR bound to the cmt operator-promoter, and repression of transcription was lost after introduction of a stop codon into cmtR. Assays of metal-dependent expression from cmt and nmt operator-promoters established that the metal specificity of CmtR in vivo was perfectly inverted relative to the nickel-cobalt sensor NmtR from the same organism, with CmtR totally insensitive to Co(II) or Ni(II) and NmtR totally insensitive to Cd(II) or Pb(II). Absorption spectroscopy of Cd(II)-, Co(II)-, and Ni(II)-substituted CmtR revealed S- to metal-charge-transfer which was absent in NmtR, providing diagnostic metal-difference spectra that discriminated between metal-binding to these two proteins. Ni(II)-binding isothermal titrations of CmtR are complex, with Kapp = 1.8 x 10(4) m(-1) for site1, three orders of magnitude weaker than KNi for NmtR. Mixing equimolar apo-NmtR and apo-CmtR with 0.9 equivalents of Cd(II) gave Cd(II)-dependent difference spectra almost identical to Cd(II)0.9-CmtR. Thus, Cd(II) bound to CmtR in preference to NmtR, whereas the converse was true for Ni(II); this correlates faithfully with and provides a simplistic basis for metal-sensing preferences. In contrast, CmtR and NmtR had similar affinities for Co(II), and alternative explanations for Co(II) sensitivities are invoked. ArsR-SmtB repressors detect metals through derivatives of one or both of two possible allosteric sites at either carboxyl-terminal alpha5 helices or helix alpha3 proximal to the DNA-binding site. Unexpectedly, neither site was required for inducer recognition by CmtR. The mutants in potential metal ligands in, or near, these regions, Cys4, Cys35, Asp79, His81, Asp97, Asp99, Glu105, Glu111, and Glu114, retained both repression and inducer recognition. Crucially, substitution of Cys57, Cys61, and Cys102 with Ser revealed that each of these three residues is obligatory for Cd(II) detection, and this defines completely new sensory sites.
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PMID:A cadmium-lead-sensing ArsR-SmtB repressor with novel sensory sites. Complementary metal discrimination by NmtR AND CmtR in a common cytosol. 1293 64


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