UNIPROT:Q8NEX9 - FACTA Search

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Query: UNIPROT:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat astrocytes in primary cultures were employed to isolate the plasma membrane. The method for the isolation of plasma membrane was based on the capacity of the cytoskeleton to adhere to the substratum entrapping intracellular organelles during freezing-thawing cycle performed on the cell. By washing the 'surface adherent framework', the untrapped plasma membrane were recovered and density equilibrium centrifugation resulted in the isolated membrane. The isolated plasma membrane was characterized on the basis of a variety of marker enzymes positive to the plasma membrane such as (Na+ + K+)-ATPase or 5'-nucleotidase as well as the lack of conventional markers of other endomembranes. Ultrastructurally the membranes, as isolated here, were mainly vesicular in nature. The isolated plasma membrane was devoid of the dehydrogenase responsible for NADH-cytochrome c reductase activity. However, NADH-ferricyanide reductase activity and the dehydrogenase system catalyzing the transfer of reducing equivalents from NADH or NADPH to dichloroindophenol seems plasma membrane redox system. The identical specific activity employing dichloroindophenol as an electron acceptor with NADH or NADPH as donor indicate a DT-diaphorase (EC 1.6.99.2) like activity in the astrocytes plasma membrane.
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PMID:Plasma membrane isolated from astrocytes in primary cultures. Its acceptor oxidoreductase properties. 609 77

The plasma membranes of ram spermatozoa were disrupted in a hypotonic EDTA medium and isolated by using a two-phase polymer system of dextran--polyethyleneglycol. The plasma membranes obtained were of a relatively high degree of purity (approximately 70%) as judged by electron microscopy observations and measurements of the marker enzymes alkaline phosphatase, ATPase and AMPase. The activity of succinate cytochrome C reductase, a marker of mitochondrial membranes, was very low.
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PMID:Isolation of plasma membranes from ram spermatozoa by a two-phase polymer system. 616 59

Cat muscle spindles were studied histochemically in serial transverse sections of the tenuissimus muscle stained for myofibrillar ATPase, cholinesterase or NADH-tetrazolium reductase. The terminal sites of the primary and secondary axons on intrafusal muscle fibers could be demonstrated due to their high NADH-TR activity. This sensory NADH-TR reactivity at the equator and in the juxtaequatorial regions disappeared following spindle chronic de-afferentation, but not after de-efferentation. Spindle poles that carried both primary and secondary sensory endings had a longer periaxial fluid space than poles with primary endings only, and their motor innervation, as determined by staining for ChE, was positioned at the greater distance from the equator. Some of the secondary endings occurred in intrafusal regions that displayed surface fiber ChE activity. The histochemical reaction for NADH-TR represents a simple, rapid and reliable method for studies of the distribution of sensory nerve terminals in the spindle.
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PMID:Appearance of sensory nerve terminals in cat muscle spindles stained for NADH-tetrazolium reductase. 617 8

A fixative solution that preserves the activity of some relevant enzymes in muscle histochemistry is described. Portions of human muscle biopsy specimens and selected murine muscles were fresh frozen or placed in the fixative at room temperature for up to 1 month before freezing. Cryostat sections of fresh frozen and fixed frozen tissue were assayed for nicotinamide adenine dinucleotide phosphate (NADH)-tetrazolium reductase (NADH), several adenosine triphosphatases (ATPases), myoadenylate deaminase (MD), and phosphorylase. NADH, ATPase, and MD activity were preserved following fixation but phosphorylase was not preserved. Murine spleen and kidney were similarly tested for acid phosphatase (acid phos), alkaline phosphatase (alk phos), and nonspecific esterase (NSE). Alk phos activity was preserved but acid phos and NSE activity were significantly reduced following fixation. This fixative is useful in some circumstances for processing or shipping human muscle biopsy specimens and experimental tissues.
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PMID:A fixative for use in muscle histochemistry. 618 97

Vanadate is a potent inhibitor of Na+,K+-ATPase derived from bovine aorta. The Ca2+, Mg2+-ATPase of the same preparation was inhibited at 10 times higher concentrations. Compared with [3H]ouabain, 48V bound quickly to bovine aortic microsomes. Equilibrium binding experiments revealed one high-affinity, low-capacity and one low-affinity binding site for 48V, whereas [3H]ouabain possessed only one binding site of high affinity. A high NADH-vanadate reductase activity was measured in the same preparation, suggesting that, in this tissue, vanadate may be converted to vanadyl, a form to which the Na+,K+-ATPase is relatively insensitive. An increase in the contractile force of isolated rabbit aorta was measured with the following potency: phenylephrine greater than ouabain greater than vanadate. The order in intrinsic activity was as follows: phenylephrine congruent to ouabain greater than vanadate. The action of vanadate was rapid in onset and stable over several hours, while that of ouabain was slow and transitory. Vanadate increased tension in isolated rabbit veins to an extent similar to phenylephrine, but at concentrations two orders of magnitude higher. Vanadate action decreased with decreasing (Ca2+)0, but remained constant at a constant ratio of (Ca2+)0/(Na+)2(0). Vanadate-induced increases in tension were decreased by verapamil by about 43% and persisted in a solution in which Na+ was replaced by Li+. Vanadate increased electrically stimulated contractions. It is concluded that most of the effect of vanadate is due to an increase in calcium influx into the smooth muscle cell and that the effect of vanadate on Na+,Ca2+ exchange is of minor importance.
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PMID:Effects of vanadate on isolated vascular tissue: biochemical and functional investigations. 618 8

A histochemical analysis of rabbit stapedius muscle fibers was conducted using the myofibrillar ATPase and NADH-tetrazolium reductase techniques. Two different fiber types, type 1 and type 2b, were identified. The functional significance of the results is discussed.
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PMID:Histochemical characteristics of rabbit stapedius muscle. 622 34

We determined muscle fiber type and capillarity in cremaster muscle samples from rats and hamsters of different ages. Histochemical estimation of oxidative capacity was made from the activity of either nicotinamide dinucleotide tetrazolium reductase (NADH-TR) or succinic dehydrogenase (SDH), and fibers were termed fast or slow from myofibrillar ATPase activity. Fibers were classified as type I (low ATPase, high NADH-TR/SDH), type IIa (high ATPase, high SDH/NADH-TR), type IIb (high ATPase, low SDH/NADH-TR), or type IIc (no acid reversal of ATPase, high NADH-TR). Type IIb fibers accounted for 60-80% of the muscle area in both species at all ages. The principal change with maturation was muscle fiber hypertrophy. Mean cross-sectional fiber area increased from 488 +/- 70 (SE) and 453 +/- 19 micron2 in young hamsters and rats, respectively, to 1,255 +/- 99 and 1,540 +/- 101 micron2 in adults. Capillary density (no. of capillaries/mm2 tissue) paralleled fiber hypertrophy; it decreased significantly with maturation from 684 +/- 60 (SE) to 228 +/- 26/mm2 in hamsters and from 341 +/- 15 to 213 +/- 15/mm2 in rats. In vitro estimates of capillary density are compared with previously obtained in vivo data (31), and sources of error are identified. We conclude that reported differences in microvascular function in the cremaster muscle in vivo during maturation or between species cannot be ascribed to changes in muscle composition.
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PMID:Capillarity and fiber types in the cremaster muscle of rat and hamster. 622 29

Cryostat sections from the mesonephros of various pig embryos with a crown-rump-length of between 17 and 95 mm were used for light microscopical assays of acid hydrolases (acid phosphatase, beta-D-N-acetylglucosaminidase, beta-D-glucuronidase), oxidoreductases (succinic dehydrogenase, NADH- and NADPH-tetrazolium reductase) and adenosine triphosphatases (Mg2+- and Na+--K+-ATPase). Our main intention was to distinguish more accurately between the different parts of the pig's nephron, which is exceedingly long and coiled. The proximal tubule, that exhibits a high activity for acid phosphatase but none in beta-D-glucuronidase incubations, shows no subsegmentation apart from a stronger reaction of its initial segment that was apparent in three of our assays. In the distal tubule, a preattachment convolution, an attachment zone, and a postattachment coil can be discriminated by a synopsis of all histiograms. The beginning of the collecting tubule is situated in the middle of the organ and not at its dorsal face as was previously believed. Up to three different segments can be discriminated in the collecting tubule. The distal and the collecting tubule harbor on ouabain-sensitive Na+--K+-ATPase activity which decreases considerably towards the Wolffian duct. The enzymatic maturation of the mesonephric pig nephron is almost completed in 17 mm embryos.
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PMID:The pig mesonephros. I. Enzyme histochemical observations on the segmentation of the nephron. 622 41

The reduction of CO2 or any other methanogenic substrate to methane serves the same function as the reduction of oxygen, nitrate or sulfate to more reduced products. These exergonic reactions are coupled to the production of usable energy generated through a charge separation and a protonmotive-force-driven ATPase. For the understanding of how methanogens derive energy from C-1 unit reduction one must study the biochemistry of the chemical reactions involved and how these are coupled to the production of a charge separation and subsequent electron transport phosphorylation. Data on methanogenesis by a variety of organisms indicates ubiquitous use of CH3-S-CoM as the final electron acceptor in the production of methane through the methyl CoM reductase and of 5-deazaflavin as a primary source of reducing equivalents. Three known enzymes serve as catalysts in the production of reduced 5-deazaflavin: hydrogenase, formate dehydrogenase and CO dehydrogenase. All three are potential candidates for proton pumps. In the organisms that must oxidize some of their substrate to obtain electrons for the reduction of another portion of the substrate to methane (e.g., those using formate, methanol or acetate), the latter two enzymes may operate in the oxidizing direction. CO2 is the most frequent substrate for methanogenesis but is the only substrate that obligately requires the presence of H2 and hydrogenase. Growth on methanol requires a B12-containing methanol-CoM methyl transferase and does not necessarily need any other methanogenic enzymes besides the methyl-CoM reductase system when hydrogenase is present. When bacteria grow on methanol alone it is not yet clear if they get their reducing equivalents from a reversal of methanogenic enzymes, thus oxidizing methyl groups to CO2. An alternative (since these and acetate-catabolizing methanogens possess cytochrome b) is electron transport and possible proton pumping via a cytochrome-containing electron transport chain. Several of the actual components of the methanogenic pathway from CO2 have been characterized. Methanofuran is apparently the first carbon-carrying cofactor in the pathway, forming carboxy-methanofuran. Formyl-FAF or formyl-methanopterin (YFC, a very rapidly labelled compound during 14C pulse labeling) has been implicated as an obligate intermediate in methanogenesis, since methanopterin or FAF is an essential component of the carbon dioxide reducing factor in dialyzed extract methanogenesis. FAF also carries the carbon at the methylene and methyl oxidation levels.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The bioenergetics of methanogenesis. 623 47

The effect of triiodothyronine (T3) on hepatic thyroxine (T4) 5'-monodeiodinase and the subcellular localization of the enzyme were examined in regenerating rat liver, because it seemed likely that the effect of T3 might be accentuated during liver regeneration. Five days after T3 treatment, the specific activity of the monodeiodinase in the microsomal fraction (105,000 X g pellet) of regenerating liver was increased to 207% of the control value. Lineweaver-Burk plots showed that the Vmax for T4 5'-monodeiodination was about 3 times greater in T3-treated rats than in controls, but that there was no difference between the two groups in the apparent Km value for T4. About 55% of the total enzyme activity was found in the endoplasmic reticulum (ER) of the liver of both controls and T3-treated rats. The subcellular distribution of the enzyme was similar to that of NADPH-cytochrome c reductase (NADPH-cyt c reductase), a marker of the ER, but different from that of Na+,K+-ATPase, a marker of plasma membranes (PM).
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PMID:Thyroxine 5'-monodeiodinase activity in regenerating liver of triiodothyronine-treated rats. 625 68

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