UMLS:C0026918 - FACTA Search

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

Contrary to the tubercle Bacilli (H37Ra, BCG), Mycobacterium phlei has a ribitol-NAD dehydrogenase (that also oxidizes, although to a lesser extent, erythritol and glycerol). This difference is observed with the Bacteria grown on Sauton's medium, as well as after their adaptation to ribitol. The extracts of all these Mycobacteria reduce, NADP in the presence of glycerol, ribitol or erythritol, though very slowly.
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PMID:[Enzymatic differences in mycobacteria. Ribitol dehydrogenase]. 40 36

The nucleotide sequence of a 1619-bp fragment of Mycobacterium bovis BCG containing the gene that encodes an alcohol dehydrogenase (ADH) has been determined. The M(r) calculated from the deduced amino acid (aa) sequence, as well as the N terminus, are in good accordance with those determined for the ADH purified from M. bovis BCG extracts. The M. bovis BCG cloned adh gene was expressed in Escherichia coli by its own promoter and the synthesized product shows ADH activity in the butane-1-ol-NADP system. Based on comparison of the aa sequence, this enzyme belongs to the zinc-containing, long-chain alcohol/polyol dehydrogenase family, which has been primarily described in eukaryotes. Of the 22 strictly conserved residues in this group, 19 are also conserved in M. bovis BCG ADH (BCGADH).
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PMID:Cloning and sequence analysis of the gene encoding an NADP-dependent alcohol dehydrogenase in Mycobacterium bovis BCG. 142 1

Extracts of Mycobacterium smegmatis, which was adapted to growth in synthetic medium containing D-arabinose as sole carbon source, catalyzed the NADPH-mediated reduction of D-arabinose to D-arabitol. When arabinose-adapted bacteria were transferred to glycerol medium, resumption of growth was accompanied by a sharp drop in the specific activity of this enzyme. Moreover, extracts of cells grown in D-arabinose medium contained large amounts of an NAD+-linked pentitol dehydrogenase, as compared to bacteria multiplying in glycerol medium. The specific activity of mycobacterial extracts was ten-fold higher for D-arabitol than for its L-isomer, and eight-fold higher than for xylitol (it was more than forty-fold lower in the case of glycerol-grown cells). The product of the pentitol dehydrogenase reaction was identified as D-xylulose by three different procedures. On the basis of these data, it is suggested that utilization of exogenous D-arabinose in mycobacteria involves two dehydrogenases that catalyze the reactions D-arabinose NADPH----D-arabitol NAD+----D-xylulose, by virtue of which an aldopentose is converted into a ketopentose. The alditol: NADP oxidoreductase was isolated from homogenates of D-arabinose-adapted mycobacteria, and purified by DEAE-cellulose chromatography. The enzymatic activity was restricted to a single band which, under denaturing conditions, comigrated with albumin (approximately 46 kDa). It was insensitive to 2-mercaptoethanol, EDTA and NaF, and was inactivated at 70 degrees C.
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PMID:Identification of a salvage pathway for D-arabinose in Mycobacterium smegmatis. 312 69

NADP-dependent isocitrate dehydrogenase (EC 1.1.1.42) from Mycobacterium phlei ATCC 354 was purified to homogeneity by ammonium sulphate fractionation, followed by DEAE cellulose and Sephadex G-200 chromatography. The pH optimum of the enzyme was 8.5. The Km values for isocitrate and NADP were 74 and 53 microM, respectively. Mn2+ was essential for enzyme activity. The enzyme lost all activity on incubation at 70 degrees C for 15 min; isocitrate and NADP protected against this thermal inactivation. p-Chloromercuribenzoate inhibited the enzyme; pre-incubation of enzyme with isocitrate + Mn2+ prevented this inhibition. The purified enzyme showed concerted inhibition by glyoxylate + oxaloacetate and was inhibited by oxalomalate.
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PMID:NADP-specific isocitrate dehydrogenase of Mycobacterium phlei ATCC 354: purification and characterization. 344 53

Mycobacterium vaccae strain JOB-5 cultured in the presence of propane contained an inducible secondary alcohol dehydrogenase. The enzyme was purified 198-fold using DEAE-cellulose, omega-aminopentyl agarose and NAD-agarose chromatography. The Mr of the enzyme was approximately 136000, with subunits of Mr 37000. The pH optimum for the reaction oxidizing propan-2-ol to propanone was 10-10.5 while the optimum for the reverse reaction was 7.5-8.5. The isoelectric point was 4.9. NAD but not NADP could serve as electron acceptor. The apparent Km values for propan-2-ol and NAD were 4.9 X 10(-5)M and 2.8 X 10(-4)M, respectively. The enzyme was inhibited by thiol reagents and metal chelators. It appears to play an essential role in the metabolism of propane by this bacterium.
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PMID:Purification and characterization of the secondary alcohol dehydrogenase from propane-utilizing Mycobacterium vaccae strain JOB-5. 391 61

Nicotinamide adenine dinucleotide glycohydrolase (NADase) activity was demonstrated in the catalases fraction of Sephadex G-200-chromatographed sonic extracts of isoniazid (INH)-susceptible (Inhs) and -resistant (Inhr) Mycobacterium phlei. Since crude extracts had no demonstrable activity even after heating, active fractions of the NADase were purified chromatographically by removing the inhibitor with Sephadex G-200. Assays for oxidized nicotinamide adenine dinucleotide (NAD+) hydrolytic activity were done by following the disappearance of NAD+ by the methods of alcohol dehydrogenase or cyanide addition. The NADase activity was linear with respect to time as well as concentration of enzyme and was inhibited in the presence of 0.04 M NADP, benzoic acid hydrazide, or nicotinamide. Crude extracts or pooled concentrated Sephadex G-200 fractions eluting after the catalase inhibited NADase activity by at least 70%. Inhibitor activity was present in both the Inhs and Inhr strains of M. phlei. The activity of the partially purified inhibitors was reversible by INH or nicotinic acid hydrazide at levels between 10 and 100 mM. These findings indicate that an NADase inhibitor system which is sensitive to reversal by INH functions in both the Inhs and Inhr strains; however, unlike previous studies with other mycobacterial species, the enzyme is sensitive to inhibition by nicotinamide. Furthermore, the inhibitors are heat stable and sensitive to reversal by nicotinic acid hydrazide as well as INH.
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PMID:Identification of a nicotinamide adenine dinucleotide glycohydrolase and an associated inhibitor in isoniazid-susceptible and -resistant Mycobacterium phlei. 624 94

Mycobacterium tuberculosis var. bovis (BCG) grown on Sauton medium normally forms a pellicle; in the absence of added Zn2+, however, the pellicle sank during incubation and the yield was only about 20% of normal. The Zn2+-starved bacteria were morphologically similar to normal bacteria and were still acid-fast at 7 d as well as 14 d. The Zn2+-starved bacteria had slightly higher free lipid and phospholipid contents than normal; the content of hexoses was lower and proteins slightly lower. The deficient culture medium became opalescent and alkaline. Aspartate and ammonium ions accumulated. There was twice as much protein in deficient as in normal medium; moreover, a class of proteins precipitable at pH 4.5, which was hardly detectable in normal medium, was present in appreciable amounts of deficient medium. The content of aldehydes, measured with yeast alcohol dehydrogenase, was also doubled in deficient medium. Fractionation of acid-soluble aldehydes obtained from deficient medium after acid treatment of a bisulphite precipitate suggested the presence of several complex molecules bearing aldehyde groups. The need for Zn2+ in the medium may be explained by the presence in normal BCG of a Zn2+-requiring NADP-dependent alcohol dehydrogenase activity whose affinity for aldehydes is especially high.
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PMID:Effect of zinc deficiency on Mycobacterium tuberculosis var. bovis (BCG). 703 13

An alcohol dehydrogenase of broad specificity was purified 43-fold from extracts of Mycobacterium tuberculosis var. bovis (BCG) grown on Sauton medium. It was also present in cells grown in Dubos medium and Tween 80 and bovine serum albumin. The enzyme, which appeared to be soluble, acted as an oxidoreductase in the system butan-1-ol-NADP. It was eluted from Sephadex G-200, hydroxylapatite and DEAE-cellulose in a single peak. The molecular weight, as determined by gel filtration on Sephadex G-200, was about 75,000. Results of electrophoresis in sodium dodecyl sulphate-polyacrylamide gels were compatible with the existence of two subunits each of molecular weight 37,500. The optimum pH was about 8.5 when the enzyme catalysed the oxidation of butan-1-ol, and about 8.2 for the reverse reaction. The apparent Km was 0.125 mM for butyraldehyde and 0.22 M for butan-1-ol. The dehydrogenase activity was maintained after heat treatment (40 min at 55 degrees C) in the presence of 30% (W/V) glycerol, but was abolished by heating (40 min at 55 degrees C) in the presence of 0.1 M-EDTA. The activity of enzyme inactivated by heat and EDTA could be fully restored at room temperature in the presence of 2 mM-Zn2+.
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PMID:Partial purification and characterization of an alcohol dehydrogenase of Mycobacterium tuberculosis var. bovis (BCG). 703 14

IgG antibodies against the 2,3-di-o-acyltrehalose glycolipid of Mycobacterium tuberculosis were determined in a set of 49 sera from patients with pulmonary tuberculosis and 65 negative control subjects. We compared a conventional ELISA method using a beta-galactosidase anti-human IgG conjugate developed with ONPG, with an amplification ELISA system constituted of an anti-human IgG biotinylated conjugate, a streptavidin-alkaline phosphatase complex, and NADP as a substrate. The resulting NAD was measured by using a redox enzymatic recycling system of alcohol dehydrogenase, diaphorase and iodonitrotetrazolium as chromogen. With specificity set at 92.31% in both methods, we obtained a sensitivity of 42.86% in the conventional method and a sensitivity of 61.22% in the amplified method. We conclude that by using a more sensitive method we can detect cases that otherwise could be identified as false negatives.
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PMID:Development of an enzyme-linked immunosorbent assay (ELISA) combined with a streptavidin-biotin and enzyme amplification method to detect anti-2,3-di-o-acyltrehalose (DAT) antibodies in patients with tuberculosis. 782 39

There is an astonishing array of microbial alcohol oxidoreductases. They display a wide variety of substrate specificities and they fulfill several vital but quite different physiological functions. Some of these enzymes are involved in the production of alcoholic beverages and of industrial solvents, others are important in the production of vinegar, and still others participate in the degradation of naturally occurring and xenobiotic aromatic compounds as well as in the growth of bacteria and yeasts on methanol. They can be divided into three major categories. (1) The NAD- or NADP-dependent dehydrogenases. These can in turn be divided into the group I long-chain (approximately 350 amino acid residues) zinc-dependent enzymes such as alcohol dehydrogenases I, II, and III of Saccharomyces cerevisiae or the plasmid-encoded benzyl alcohol dehydrogenase of Pseudomonas putida; the group II short-chain (approximately 250 residues) zinc-independent enzymes such as ribitol dehydrogenase of Klebsiella aerogenes; the group III "iron-activated" enzymes that generally contain approximately 385 amino acid residues, such as alcohol dehydrogenase II of Zymomonas mobilis and alcohol dehydrogenase IV of Saccharomyces cerevisiae, but may contain almost 900 residues in the case of the multifunctional alcohol dehydrogenases of Escherichia coli and Clostridium acetobutylicum. The aldehyde/alcohol oxidoreductase of Amycolatopsis methanolica and the methanol dehydrogenases of A. methanolica and Mycobacterium gasti are 4-nitroso-N,N-dimethylaniline-dependent nicotinoproteins. (2) NAD(P)-independent enzymes that use pyrroloquinoline quinone, haem or cofactor F420 as cofactor, exemplified by methanol dehydrogenase of Paracoccus denitrificans, ethanol dehydrogenase of Acetobacter and Gluconobacter spp. and the alcohol dehydrogenases of certain archaebacteria. (3) Oxidases that catalyze an essentially irreversible oxidation of alcohols, such as methanol oxidase of Hansenula polymorpha and probably the veratryl alcohol oxidases of certain fungi involved in lignin degradation. This review deals mainly with those enzymes for which complete amino acid sequences are available. The discussion focuses on a comparison of their primary, secondary, tertiary, and quaternary structures and their catalytic mechanisms. The physiological roles of the enzymes and isoenzymes are also considered, as are their probable evolutionary relationships.
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PMID:Molecular characterization of microbial alcohol dehydrogenases. 818 33

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