Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
 5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The method of purification up to homogenous states and properties of NADP-reductase of purple bacteria Thiocapsa roseopersicina, strain BBS, are described. The molecular weight of NADP-reductase is about 47 000; it is flavoprotein consisting of two subunits. Atebrim and chloromercury bensoate inhibit the activity of NADP-reductase (34% and 33--60%, respectively). The enzyme is specific to NADPH; it catalyzes menadion-reductase reaction, diaphorase reaction of benzyl viologen reduction, oxidation of reduced benzyl viologen in the presence of NADP, reduction of ferredoxin and cytochrome c in the presence of NADPH, but it is not capable to catalyze transhydrogenase reaction.
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PMID:[Purification and properties of NADP-reductase of phototropic bacteria Thiocapsa roseopersicina]. 2 Jan 66

The purification by affinity chromatography up to homogeneity and the properties of NAD-reductase from purple sulfur bacterium Thiocapsa roseopersicina, strain BBS, are described. The molecular weight of NAD-reductase is about 80000; pI is 3.9. The enzyme consists of two subunits. According to the stabilizing effect of FAD at preparative electrophoresis and the inhibitory effect of atebrine NAD-reductase is a flavoprotein. The bulk of the enzyme (about 75%) is localized in the cell periplasmic space. NAD-reductase is less thermostable and has a lower O2 stability as compared to the NADP-reductase from the same organism. The enzyme is specific to NADH ane catalyzes the menadione-reductase reaction, diaphorase reaction of benzyl viologen and methyl viologen reductions. In the presence of NADH NAD-reductase reduces cytochromes c552 and "c3" from T. roseopersicina and forms a complex with spinach ferredoxin.
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PMID:[Purification and properties of NAD-reductase from phototrophic bacterium Thiocapsa roseopersicina]. 723 99

Thiocapsa roseopersicina BBS contains at least three different active NiFe hydrogenases: two membrane-bound enzymes and one apparently localized in the cytoplasm. In addition to the small and large structural subunits, additional proteins are usually associated with the NiFe hydrogenases, connecting their activity to other redox processes in the cells. The operon of the membrane-associated hydrogenase, HynSL, has an unusual gene arrangement: between the genes coding for the large and small subunits, there are two open reading frames, namely isp1 and isp2. Isp1 is a b-type haem-containing transmembrane protein, whereas Isp2 displays marked sequence similarity to the heterodisulfide reductases. The other membrane-bound (Hup) NiFe hydrogenase contains the hupC gene, which codes for a cytochrome b-type protein that probably plays a role in electron transport. The operon of the NAD(+)-reducing Hox hydrogenase contains a hoxE gene. In addition to the hydrogenase and diaphorase parts of the complex, the fifth HoxE subunit may serve as a third redox gate of this enzyme. The physiological functions of these putative electron-mediating subunits were studied by disruption of their genes. The deletion of some accessory proteins dramatically reduced the in vivo activities of the hydrogenases, although they were fully active in vitro. The absence of HupC resulted in a decrease in HupSL activity in the membrane, but removal of the Isp1 and Isp2 proteins did not have any significant effect on the location of HynSL activity. Through the use of a tagged HoxE protein, the whole Hox hydrogenase pentamer could be purified as an intact complex.
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PMID:Electron-transfer subunits of the NiFe hydrogenases in Thiocapsa roseopersicina BBS. 1901 79