Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.1.1.1 (alcohol dehydrogenase)
 9,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intrinsic chemical properties of the zinc(II) ion in zinc enzymes have been investigated by the model of 1:1 Zn2+-macrocyclic polyamine complexes, including Zn2+-1,5,9-triazacyclododecane ([12]aneN3) and 1,4,7,10-tetraazacyclododecane (cyclen). The physiologically most suitable pKa values for the Zn2+-bound H2O in enzymes were illustrated by the first model Zn2+-[12]aneN3 complex, which mimics the essential kinetic and thermodynamic roles of Zn2+ in carbonic anhydrase. The activation of proximate serine residues (in alkaline phosphatase) and activation of alcohols for hydride transfer to NAD+ (in alcohol dehydrogenase) were also mimicked by Zn2+ -[12]aneN3 complexes. The functions of two zincs in dinuclear metallophosphatases were explained by a new dinuclear Zn2+-cryptate. For an aldolase type II model, a Zn2+-cyclen derivative showed facile enolate formation from a proximate carbonyl pendant under physiological conditions. The strong anion affinities, which Zn2+ intrinsically possesses, were exploited into novel selective nucleobase thymine (or uracil) recognition of Zn2+-cyclen complexes by the strong Zn2+ -imido anion bond formation. The Zn2+-aromatic-pendant cyclen complexes selectively bind to T (or U) in single- and double-stranded DNA (or RNA). Thus, Zn2+ complexes act like molecular zippers to break A-T pairs in DNA, which was proven by various physicochemical measurements and DNA footprinting assays. These Zn2+ complexes showed some relevant biochemical and biological properties such as inhibition of transcriptional factor, TATA binding protein, or strong antimicrobial activities to gram-positive bacterial strains.
 ...
PMID:Why zinc in zinc enzymes? From biological roles to DNA base-selective recognition. 1081 60

Trimethylamine N-oxide (TMAO) is a natural osmolyte accumulated in cells of organisms as they adapt to environmental stresses. In vitro, TMAO increases protein stability and forces partially unfolded structures to refold. Its effects on the native fold are unknown. To investigate the interrelationship between protein stability, internal dynamics and function, the influence of TMAO on the flexibility of the native fold was examined with four different proteins by Trp phosphorescence spectroscopy. Its influence on conformational dynamics was assessed by both the intrinsic phosphorescence lifetime, which reports on the local structure about the triplet probe, and the acrylamide bimolecular quenching rate constant that is a measure of the average acrylamide diffusion coefficient through the macromolecule. The results demonstrate that for apoazurin, alcohol dehydrogenase, alkaline phosphatase and glyceraldehydes-3-phosphate dehydrogenase 1.8 M TMAO does not perturb the flexibility of these macromolecules in a temperature range between - 10 degreesC and up to near the melting temperature. This unexpected finding contrasts with the dampening effect observed with polyols as well as with the expectations based on the preferential exclusion of the osmolyte from the protein surface.
 ...
PMID:No effect of trimethylamine N-oxide on the internal dynamics of the protein native fold. 1124 47

The metabolic characteristics of Lactococcus lactis IL1403 were examined on two different growth media with respect to the physiological response to two sugars, glucose and galactose. Analysis of specific metabolic rates indicated that despite significant variations in the rates of both growth and sugar consumption, homolactic fermentation was maintained for all cultures due to the low concentration of either pyruvate-formate lyase or alcohol dehydrogenase. When the ionophore monensin was added to the medium, flux through glycolysis was not increased, suggesting a catabolic flux limitation, which, with the low intracellular concentrations of glycolytic intermediates and high in vivo glycolytic enzyme capacities, may be at the level of sugar transport. To assess transcription, a novel DNA macroarray technology employed RNA labeled in vitro with digoxigenin and detection of hybrids with an alkaline phosphatase-antidigoxigenin conjugate. This method showed that several genes of glycolysis were expressed to higher levels on glucose and that the genes of the mixed-acid pathway were expressed to higher levels on galactose. When rates of enzyme synthesis are compared to transcript concentrations, it can be deduced that some translational regulation occurs with threefold-higher translational efficiency in cells grown on glucose.
 ...
PMID:Molecular physiology of sugar catabolism in Lactococcus lactis IL1403. 1139 43

A synchronous enzyme-reaction system using water-soluble formazan and a non-enzymatic electron mediator was developed and applied to an enzyme immunoassay (EIA). The reaction system consists of four steps: (I) dephosphorylation of NADP(+) to produce NAD(+) by alkaline phosphatase (ALP), (II) reduction of NAD(+) to produce NADH with oxidation of ethanol to yield acetaldehyde by alcohol dehydrogenase (ADH), (III) reduction of water-soluble tetrazolium salt (WST-1) to produce formazan by NADH via 1-methoxy-5-methyl-phenazinium methyl sulfate (PMS), and (IV) re-reduction of NAD(+) to produce NADH by ADH. During each cycle, one molecule of tetrazolium is converted to one molecule of formazan. The concentration of formazan during the reaction was given by second-order polynomials of the reaction time. Kinetic studies strongly suggested that the synchronous enzyme-reaction system had the potential to detect an analyte at the attomole level in EIA. On the basis of the kinetic studies, optimal conditions for EIA incorporating the synchronous system were examined. NADP(+) was purified thoroughly to remove minor traces of NAD(+) in the preparation, and an ADH preparation contaminated with the lowest level of ALP activity was used. When the synchronous system was applied to a sandwich-type EIA for human C-reactive protein, the protein was detected with a sensitivity of 50 attomole per well of a micro-titer plate (0.1 ml) in a 1-h reaction. In addition, EIA with water-soluble formazan showed a more quantitative and sensitive result than that with insoluble formazan. These findings indicated that the (WST-1)-PMS system introduced in this study has a great potential for highly sensitive enzyme immunoassay.
 ...
PMID:Development of a synchronous enzyme-reaction system for a highly sensitive enzyme immunoassay. 1175 40

The effects of heavy water (D(2)O) on internal dynamics of proteins were assessed by both the intrinsic phosphorescence lifetime of deeply buried Trp residues, which reports on the local structure about the triplet probe, and the bimolecular acrylamide phosphorescence quenching rate constant that is a measure of the average acrylamide diffusion coefficient through the macromolecule. The results obtained with several protein systems (ribonuclease T1, superoxide dismutase, beta-lactoglobulin, liver alcohol dehydrogenase, alkaline phosphatase, and apo- and Cd-azurin) demonstrate that in most cases D(2)O does significantly increase the rigidity the native structure. With the exception of alkaline phosphatase, the kinetics of the structure tightening effect of deuteration are rapid compared with the rate of H/D exchange of internal protons, which would then assign the dampening of structural fluctuations in D(2)O to a solvent effect, rather than to stronger intramolecular D bonding. Structure tightening by heavy water is generally amplified at higher temperatures, supporting a mostly hydrophobic nature of the underlying interaction, and under conditions that destabilize the globular fold.
 ...
PMID:Effect of heavy water on protein flexibility. 1202 48

Nicotinic acid-adenine dinucleotide phosphate (NAADP) is a novel nucleotide derived from NADP that has now been shown to be active in releasing Ca(2+) from intracellular stores in a wide variety of cells ranging from plant to human. Despite the obvious importance of monitoring its cellular levels under various physiological conditions, no assay has been reported for NAADP to date. In the present study, a widely applicable assay for NAADP with high sensitivity is described. NAADP was first dephosphorylated to nicotinic acid-adenine dinucleotide by treatment with alkaline phosphatase. The conversion was shown to be stoichiometric. NMN-adenylyltransferase was then used to convert nicotinic acid-adenine dinucleotide into NAD in the presence of high concentrations of NMN. The resultant NAD was amplified by a cycling assay involving alcohol dehydrogenase and diaphorase. Each time NAD cycled through these coupled reactions, a molecule of highly fluorescent resorufin was generated. The reaction could be performed for hours, resulting in more than a 1000-fold amplification. Concentrations of NAADP over the 10-20 nM range could be routinely measured. This novel cycling assay was combined with an enzymic treatment to provide the necessary specificity for the assay. NAADP was found to be resistant to NADase and apyrase. Pretreatment of samples with a combination of the hydrolytic enzymes completely eliminated the interference from common nucleotides. The versatility of the cycling assay can also be extended to measure nicotinic acid, which is a substrate in the synthesis of NAADP catalysed by ADP-ribosyl cyclase, over the micromolar range. All the necessary reagents for the cycling assay are widely available and it can be performed using a multi-well fluorescence plate reader, providing a high-throughput method. This is the first assay reported for NAADP and nicotinic acid, which should be valuable in elucidating the messenger functions of NAADP.
 ...
PMID:A novel cycling assay for nicotinic acid-adenine dinucleotide phosphate with nanomolar sensitivity. 1211 13

This report establishes the conditions for monitoring the intrinsic Trp phosphorescence of proteins encapsulated in silica hydrogels and demonstrates the usefulness of the delayed emission for examining potential perturbations of protein structure-dynamics by the silica matrix. Phosphorescence measurements were conducted both in low temperature (140 K) glasses and at ambient temperature on the proteins apo- and Cd-azurin, alkaline phosphatase and liver alcohol dehydrogenase together with the complexes of liver alcohol dehydrogenase with coenzyme analogs ADPR and H(2)NADH. While spectral shifts and broadening indicate that alterations of the Trp microenvironment are more marked on superficial regions of the macromolecule the decay kinetics of deeply buried chromophores show that the internal flexibility of the polypeptide in two out of three cases is significantly affected by silica entrapment. Both the intrinsic lifetime and the bimolecular acrylamide quenching constant confirm that, relative to the aqueous solution, in hydrogels the globular fold is more rigid with azurin, looser with alcohol dehydrogenase and substantially unaltered with alkaline phosphatase. It was also noted that large amplitude structural fluctuations, as those involved in coenzyme binding to alcohol dehydrogenase or thermally activated in alkaline phosphatase, were not restricted by gelation. Common features of the three silica entrapped proteins are pronounced conformational heterogeneity and immobilization of rotational motions of the macromolecule in the long time scale of seconds.
 ...
PMID:Structure and dynamics of proteins encapsulated in silica hydrogels by Trp phosphorescence. 1283 35

A series of molecular species with approximately spherical shape and with molecular weights between 35,000 and 250,000 were shadowed with platinum while resting on a cleaved mica surface. They were backed, stripped from the surface, and examined by electron microscopy. Materials examined were: pepsin, liver alcohol dehydrogenase, yeast alcohol dehydrogenase, glutamic dehydrogenase, polyhedral virus protein (insect), fibrinogen substructure, alkaline phosphatase, and microsomal particles from Escherichia coli. Measurements were made of widths perpendicular to the shadowing direction and heights were deduced from shadow lengths. For those molecular species with well established molecular weights the average heights correlate very well with the diameter of the theoretical sphere but the average widths are too great by 50 to 80 A due to the lateral growth of the deposited metal. Although the distortion in shape of shadowed particles is relatively large, with standardized conditions for shadowing, it is possible to make allowance for the distortion and to obtain reasonably reliable estimates of the dimensions of spherical organic particles down to a molecular weight of about 35,000.
 ...
PMID:Measurement of globular protein molecules by electron microscopy. 1439 16

Spectrin, the major constituent protein of the erythrocyte membrane skeleton, exhibits chaperone activity by preventing the irreversible aggregation of insulin at 25 degrees C and that of alcohol dehydrogenase at 50 degrees C. The dimeric spectrin and the two subunits, alpha-spectrin and beta-spectrin prevent such aggregation appreciably better, 70% in presence of dimeric spectrin at an insulin:spectrin ratio of 1:1, than that in presence of the tetramer of 25%. Our results also show that spectrin binds to denatured enzymes alpha-glucosidase and alkaline phosphatase during refolding and the reactivation yields are increased in the presence of the spectrin derivatives when compared with those refolded in their absence. The unique hydrophobic binding site on spectrin for the fluorescence probe, 6-propionyl-2-(dimethylamino)naphthalene (Prodan) has been established to localize at the self-associating domain with the binding stoichiometry of one Prodan/both dimeric and tetrameric spectrin. The other fluorescence probe, 1-anilinonaphthalene-8-sulfonic acid, does not show such specificity for spectrin, and the binding stoichiometry is between 3 and 5 1-anilinonaphthalene-8-sulfonic acid/dimeric and tetrameric spectrin, respectively. Regions in alpha- and beta-spectrins have been found to have sequence homology with known chaperone proteins. More than 50% similarities in alpha-spectrin near the N terminus with human Hsp90 and in beta-spectrin near the C terminus with human Hsp90 and Escherichia coli DnaJ have been found, indicating a potential chaperone-like sequence to be present near the self-associating domain that is formed by portions of alpha-spectrin near the N terminus and the beta-spectrin near the C terminus. There are other patches of sequences also in both the spectrin polypeptides, at the other termini as well as in the middle of the rod domain having significant homology with well known chaperone proteins.
 ...
PMID:Chaperone activity and prodan binding at the self-associating domain of erythroid spectrin. 1549 10

Oxidoreductases and hydrolases isolated from different sources (horseradish and peanut peroxidases, alcohol dehydrogenases from baker's yeast and horse liver, and alkaline phosphatases from Escherichia coli, chicken and seal intestine) were used to determine their metal ion cofactors: Fe(III), Zn(II) and Mg(II), respectively. Studying the effects of the metal ion cofactors on the catalytic activity of the enzymes of different origin showed that the extent of their inhibition, activation, or reactivation of their apoenzymes depended on the structure and accessibility of the enzyme active site, which varies among the biocatalysts isolated from different sources. The developed procedures are based on the inhibiting (Zn(II)) or activating (Mg(II)) effects of the metal ions on the catalytic activity of the enzymes, or on reactivating effects (Fe(III) and Zn(II)) on the apoenzymes. The procedures are characterized by high sensitivity and selectivity; the detection limits of Fe(III) using horseradish peroxidase, Zn(II) using alcohol dehydrogenase from baker's yeast, alkaline phosphatase from seal intestine and its apoenzyme, and Mg(II) using alkaline phosphatase from chicken intestine equal 10 ng L(-1), 20 ng L(-1), 3 microg L(-1), 8 microg L(-1) and 0.2 microg L(-1), respectively.
 ...
PMID:Using enzymes isolated from diverse sources to determine metal ion cofactors. 1575 3


<< Previous 1 2 3 4 5 6 7 8 Next >>