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:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effects of hyponatraemia on cerebral blood flow, oxidative metabolism, and transfer of Na and K from the brain--c.s.f. compartment to blood have been examined in anaesthetized calves 2--6 weeks after birth. 2. Dilutional hyponatraemia was produced by administration of a long-acting antidiuretic hormone analogue (desmopressin) and the infusion of hexose solutions of various concentrations. Cerebral blood flow was measured using a hydrogen clearance technique, and metabolism and cation transfer quantified by simultaneous determination of arterio-cerebral venous concentration differences. 3. Sustained hyposmolar hyponatraemia (plasma osmolality, 232 +/- 1 m-osmole/kg; plasma Na, 117 . 1 +/- 0 . 5 m-mole/l.) was associated with a fall in cerebral blood flow, and increase in measured net transfer of K from the brain-c.s.f. compartment to the circulation. C.s.f. Na concentration and osmolality were both decreased. 4. No alterations in these variables occurred during sustained isosmolar hyponatraemia (plasma osmolality, 284 +/- 2 m-osmole/kg; plasma Na, 119 . 9 +/- 0 . 2 m-mole/l). 5. The results are discussed in relation to the route, mechanism and time course of K loss from brain during hyponatraemia.
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PMID:Potassium transfer from brain to blood during sustained hyponatraemia in the calf. 746 70

Sedimentation equilibrium measurements and scanning transmission electron microscopy (STEM) mass mapping of the extracellular, hexagonal bilayer hemoglobin (HBL Hb) of the earthworm Lumbricus terrestris provided masses of 3.41 to 3.66 MDa and 3.56 (+/- 0.13) MDa, respectively. The Hb also contains 57.2 (+/- 6.0) moles of tightly bound Ca per mole of protein. The Hb and its subunits obtained by dissociation, in native, dehemed and reduced carbamidomethylated forms, were subjected to electrospray ionization mass spectroscopy (ESI-MS). Maximum entropy deconvolution identified three groups of peaks, at approximately 16 kDa, 24 to 32 kDa and approximately 53 kDa corresponding to the monomer subunit M (globin chain d), four linker subunits and the disulfide-bonded trimer T (globin chains a + b + c). Subunit M consisted of three components, d1 (15, 992.4), d2 (15, 978.0) and d3 (15, 962.1) (+/- 1.0 Da), with relative intensities 1.0:5:0.3, respectively. Subunit T consisted of four major components, T1 (52, 922.6), T2 (52, 760.0), T3 (52, 598.5) and T4 (52, 435.4) (+/- 4.0 Da), with relative intensities 0.6:1.0:0.2:0.7, respectively. ESI-MS of carbamidomethylated T, demonstrated that, unlike chains b (16, 254.4) and c (17, 289.2), chain a exists as a series of four, hexose-connected, glycosylated isoforms, a1 to a4 (19, 389.9, 19, 227.4, 19, 065.3 and 18, 902.9) (+/- 1.0 Da). The mass differences between the deglycosylated chain a (17, 524.0) and a1 to a4 correspond to glycan side-chains (GlcNAc)2 (Man)n (n = 6 to 9). Four groups of peaks were observed in the 24 to 32 kDa region. Linkers L1a (27, 540.8) and L1b (27, 702.4) (+/- 2.0 Da) are isoforms of L1 (25, 837.5 in N-deglycosylated Hb) with glycan side-chains (GlcNAc)2 (Man)n (n = 8,9). Linkers L2 (32, 104.3 (+/- 5.0) Da) and L3 (24, 912.9 (+/- 2.0) Da) occur as single species. Linkers L4a to L4c (24, 019.0, 24, 102.3 and 24, 169.9) (+/- 2.0 Da) with relative intensities 1.0:0.8:0.8, have not been identified previously. From ESI-MS relative intensities, L1:L2:L3:L4 = 0.6:0.4:1.0:0.5 and globin linker = 0.78:0.22. HPLC of Lumbricus Hb provided a globin linker = 0.73:0.27 (+/- 0.02) and a heme content of 2.52 (+/- 0.14) wt%. A model is proposed for the HBL structure, wherein 12 213.4 kDa dodecamers (144 globin chains, 2561 kDa) decorate a hexagonal framework of 36 linker chains (12L1 + 6L2 + 12L3 + 6L4) to provide a total mass of 3.531 MDa, each dodecamer being in contact with three linker subunits.
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PMID:Mass spectrometric composition and molecular mass of Lumbricus terrestris hemoglobin: a refined model of its quaternary structure. 856 63

The thermophilic Clostridium P2 was isolated from a semi-continuously fed reactor with high ammonium concentration. This bacterium formed substantial amounts of L-alanine as a major fermentation product from glucose, fructose and mannose. Low amounts of acetate, butyrate, carbon dioxide and hydrogen were also formed. A high partial pressure of hydrogen inhibited the degradation of the monosaccharides, whereas hydrogen removal, in the form of methanogenesis was found to be stimulatory. However, the amount of alanine produced per mole of hexose degraded did not change. Hexose degradation and alanine production were favoured by high ammonium concentrations. Nuclear magnetic resonance spectroscopy studies provided strong evidence that an active Embden-Meyerhof-Parnas pathway existed and that alanine was produced via an amination of pyruvate.
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PMID:Alanine as an end product during fermentation of monosaccharides by Clostridium strain P2. 882 81

When microbes evolve in a continuous, nutrient-limited environment, natural selection can be predicted to favor genetic changes that give cells greater access to limiting substrate. We analyzed a population of baker's yeast that underwent 450 generations of glucose-limited growth. Relative to the strain used as the inoculum, the predominant cell type at the end of this experiment sustains growth at significantly lower steady-state glucose concentrations and demonstrates markedly enhanced cell yield per mole glucose, significantly enhanced high-affinity glucose transport, and greater relative fitness in pairwise competition. These changes are correlated with increased levels of mRNA hybridizing to probe generated from the hexose transport locus HXT6. Further analysis of the evolved strain reveals the existence of multiple tandem duplications involving two highly similar, high-affinity hexose transport loci, HXT6 and HXT7. Selection appears to have favored changes that result in the formation of more than three chimeric genes derived from the upstream promoter of the HXT7 gene and the coding sequence of HXT6. We propose a genetic mechanism to account for these changes and speculate as to their adaptive significance in the context of gene duplication as a common response of microorganisms to nutrient limitation.
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PMID:Multiple duplications of yeast hexose transport genes in response to selection in a glucose-limited environment. 971 21

The Apa molecules secreted by Mycobacterium tuberculosis, Mycobacterium bovis, or BCG have been identified as major immunodominant antigens. Mass spectrometry analysis indicated similar mannosylation, a complete pattern from 1 up to 9 hexose residues/mole of protein, of the native species from the 3 reference strains. The recombinant antigen expressed in M. smegmatis revealed a different mannosylation pattern: species containing 7 to 9 sugar residues/mole of protein were in the highest proportion, whereas species bearing a low number of sugar residues were almost absent. The 45/47-kDa recombinant antigen expressed in E. coli was devoid of sugar residues. The proteins purified from M. tuberculosis, M. bovis, or BCG have a high capacity to elicit in vivo potent delayed-type hypersensitivity (DTH) reactions and to stimulate in vitro sensitized T lymphocytes of guinea pigs immunized with living BCG. The recombinant Apa expressed in Mycobacterium smegmatis was 4-fold less potent in vivo in the DTH assay and 10-fold less active in vitro to stimulate sensitized T lymphocytes than the native proteins. The recombinant protein expressed in Escherichia coli was nearly unable to elicit DTH reactions in vivo or to stimulate T lymphocytes in vitro. Thus the observed biological effects were related to the extent of glycosylation of the antigen.
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PMID:Decreased capacity of recombinant 45/47-kDa molecules (Apa) of Mycobacterium tuberculosis to stimulate T lymphocyte responses related to changes in their mannosylation pattern. 1054 34

Based on the presence and absence of enzyme activities, the biochemical pathways for the fermentation of inulin by Clostridium thermosuccinogenes DSM 5809 are proposed. Activities of nine enzymes (lactate dehydrogenase, phosphoenolpyruvate carboxylase, malate dehydrogenase, fumarase, fumarate reductase, phosphotransacetylase, acetate kinase, pyruvate kinase, and alcohol dehydrogenase) were measured at four temperatures (37, 47, 58, and 70 degrees C). Each of the enzymes increased 1.5 to 2.0-fold in activity between 37 and 58 degrees C, but only lactate dehydrogenase, fumarate reductase, malate dehydrogenase, and fumarase increased at a similar rate between 58 and 70 degrees C. No acetate kinase activity was observed at 70 degrees C. Arrhenius energies were calculated for each of these nine enzymes and were in the range of 9.8 to 25.6 kcal/mol. To determine if a relationship existed between product formation and enzyme activity, serum bottle fermentations were completed at the four temperatures. Maximum yields (in moles per mole hexose unit) for succinate (0.23) and acetate (0.79) and for biomass (29.5 g/mol hexose unit) occurred at 58 degrees C, whereas the maximum yields for lactate (0.19) and hydrogen (0.25) and the lowest yields for acetate (0.03) and biomass (19.2 g/mol hexose unit) were observed at 70 degrees C. The ratio of oxidized products to reduced products changed significantly, from 0.52 to 0.65, with an increase in temperature from 58 to 70 degrees C, and there was an unexplained detection of increased reduced products (ethanol, lactate, and hydrogen) with a concomitant decrease in oxidized-product formation at the higher temperature.
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PMID:Elucidation of enzymes in fermentation pathways used by Clostridium thermosuccinogenes growing on inulin. 1061 31

The fine structural features of alkali-extracted galactoglucomannan composed of D-galactose, D-glucose and D-mannose in a 1:8:33 mole proportion from the secondary cell walls of Picea abies L. Karst have been determined. Compositional and methylation analyses of the polymer, partial acid hydrolysis, as well as 1H and 13C NMR measurements of the polymer and products of partial acid hydrolysis confirmed a beta-(1-->4)-linked backbone of galactoglucomannan containing the segments of mannosyl residues (Man2, Man3, Man4, etc.) interrupted with the segments having both mannose and glucose residues, as well as the segments in which D-Glcp units can be adjacent to each other (Glc2). Further, the low content of branching points (approximately 3%) at the positions of 0-6, 0-3 and 0-2 of mannosyl and 0-6 and 0-3 of glucosyl residues, but preferably of mannosyl ones, indicates the presence of short side-chains terminated at position 0-6 predominantly by D-galactose units as single stubs.
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PMID:Galactoglucomannan from the secondary cell wall of Picea abies L. Karst. 1112 91

A water-soluble galactoglucomannan composed of D-galactose, D-glucose, and D-mannose in 1:3:17 mole proportion has been isolated from the secondary cell walls of Picea abies L. Karst. About 33% of the polysaccharide units were substituted by acetyl groups. Structural studies of the polymer indicated a beta-(1-->4)-linked glucomannopyranosyl backbone with a low content of branch points at O-6 of mannosyl and glucosyl residues. A preference for mannosyl groups indicates the presence of a single D-galactosyl unit side-chain. About half of the mannose residues were O-acetylated at C-2 and C-3 in 1.7:1 mole proportion.
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PMID:An acetylated galactoglucomannan from Picea abies L. Karst. 1203 44

A strain of Bacillus megaterium screened from activated sludge could produce exocellular flocculant. The flocculant was purified through ethanol precipitation and Sephadex S-500 column chromatography. The purified flocculant BP25 was assayed by Bradford reaction, agarose gel electrophoresis and Sulfate-phenol method. The results showed that BP25 was a kind of polysaccharide which contains 36.97% O, 6.28% H, 47.00% C, 0% No NMR assay showed BP-25 contains no uronic acid. Gas-chromatography assay combined with thin-layer chromatography of acid hydralate revealed that BP25 contains Glucose and Mannose with the mole ratio of 4:1. Methylation analysis revealed the polysaccharide contains alpha-1, 6 glycosidicbond and alpha-1, 3 glycosidicbond. The main chains are comprised of Glucose and all the Mannose are in the side chains. Possible repeating unit structure was deduced.
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PMID:[Composition and structure of bioflocculant BP25]. 1254 90

For the transition to the hydrogen economy, hydrogen must be produced sustainably, e.g., by the fermentation of agricultural material. Continuous fermentative production of hydrogen from an insoluble substrate in nonsterile conditions is yet to be reported. In this study hydrogen production using mixed microflora from heat-treated digested sewage sludge in nonsterile conditions from a particulate co-product of the wheat flour industry (7.5 g L(-1) total hexose) at 18- and 12-hour hydraulic retention times, pH 4.5 and 5.2, 30 degrees C and 35 degrees C was examined. In continuous operation, hydrogen yields of approximately 1.3 moles hydrogen/mole hexose consumed were obtained, but decreased if acetate or propionate levels rose, indicating metabolism shifted towards hydrogen consumption by homoacetogenesis or propionate producers. These shifts occurred both at pH 4.5 and 5.2. Sparging the reactor with nitrogen to reduce hydrogen in the off-gas from 50% to 7% gave stable operation with a hydrogen yield of 1.9 moles hydrogen /mole hexose consumed over an 18-day period.
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PMID:Continuous fermentative hydrogen production from a wheat starch co-product by mixed microflora. 1459 74


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