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Query: HUMANGGP:026099 (
oxidoreductase
)
7,952
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We describe a pathogenic mutation in the mitochondrial cytochrome b gene in a patient with a multisystem disorder presenting as histiocytoid cardiomyopathy in whom a defect of ubiquinol cytochrome c
oxidoreductase
of the electron transport chain had been documented biochemically. The mutation, a G to A transition at nucleotide 15498, results in the substitution of glycine with
aspartic acid
at amino acid position 251. The mutation, which is heteroplasmic and fulfills all accepted criteria for pathogenicity, is likely to impair the function of the holoenzyme as deduced from its effects on the crystal structure of ubiquinol cytochrome c
oxidoreductase
. This is the first molecular defect associated with histiocytoid cardiomyopathy.
...
PMID:A missense mutation in the mitochondrial cytochrome b gene in a revisited case with histiocytoid cardiomyopathy. 1096 Apr 95
The flavoprotein Escherichia coli methylenetetrahydrofolate reductase (MTHFR) catalyzes the reduction of 5,10-methylenetetrahydrofolate (CH(2)-H(4)folate) to 5-methyltetrahydrofolate (CH(3)-H(4)folate). The X-ray crystal structure of the enzyme has revealed the amino acids at the flavin active site that are likely to be relevant to catalysis. Here, we have focused on two conserved residues,
Asp
120 and Glu 28. The presence of an acidic residue (
Asp
120) near the N1-C2=O position of the flavin distinguishes MTHFR from all other known flavin oxidoreductases and suggests an important function for this residue in modulating the flavin reactivity. Modeling of the CH(3)-H(4)folate product into the enzyme active site also suggests roles for
Asp
120 in binding of folate and in electrostatic stabilization of the putative 5-iminium cation intermediate during catalysis. In the NADH-menadione oxidoreductase assay and in the isolated reductive half-reaction, the Asp120Asn mutant enzyme is reduced by NADH 30% more rapidly than the wild-type enzyme, which is consistent with a measured increase in the flavin midpoint potential. Compared to the wild-type enzyme, the mutant showed 150-fold decreased activity in the physiological NADH-CH(2)-H(4)folate
oxidoreductase
reaction and in the oxidative half-reaction involving CH(2)-H(4)folate, but the apparent K(d) for CH(2)-H(4)folate was relatively unchanged. Our results support a role for
Asp
120 in catalysis of folate reduction and perhaps in stabilization of the 5-iminium cation. By analogy to thymidylate synthase, which also uses CH(2)-H(4)folate as a substrate, Glu 28 may serve directly or via water as a general acid catalyst to aid in 5-iminium cation formation. Consistent with this role, the Glu28Gln mutant was unable to catalyze the reduction of CH(2)-H(4)folate and was inactive in the physiological
oxidoreductase
reaction. The mutant enzyme was able to bind CH(3)-H(4)folate, but reduction of the FAD cofactor was not observed. In the NADH-menadione oxidoreductase assay, the mutant demonstrated a 240-fold decrease in activity.
...
PMID:Folate activation and catalysis in methylenetetrahydrofolate reductase from Escherichia coli: roles for aspartate 120 and glutamate 28. 1137 Nov 82
The highly thermostable 7Fe-ferredoxin from Sulfolobus sp. strain 7 has tightly bound zinc at the interface between the N-terminal extra domain and the C-terminal core. The zinc is tetrahedrally ligated by His-16, His-19, His-34, and
Asp
-76. Previous studies on truncated mutants have shown that the zinc and certain parts, i.e. not all, of the N-terminal extra stretch are responsible for the thermal stabilization of the molecule. To study the role of
Asp
-76, a series of mutants were constructed with
Asp
-76 replaced by Glu (D76E), Asn (D76N), or Ala (D76A). All the mutants, as well as wild type ferredoxin, bound 1 mol zinc/mol protein, and showed similar kinetics for 2-oxoacid:ferredoxin
oxidoreductase
. The stability of the protein was examined by thermal degradation of the clusters. In the absence of guanidium thiocyanate, the T(m), defined as the mid-point temperature of the thermal transition from the native to the denatured state, for every mutant was above 100 degrees C. The T(m) values in the presence of 1 M guanidium thiocyanate were determined to be 90.8, 90.2, 87.1, 84.4, and 72.9 degrees C for the natural, recombinant, D76N-, D76A-, and D76E-ferredoxins, respectively. These results indicate that the interaction between zinc and the carboxyl oxygen of
Asp
-76 has subtle effects on both the zinc-ligation and stability, although the native zinc center is liganded with high symmetry, suggesting that the three His residues are more important for zinc-binding.
...
PMID:Zinc-coordination of aspartic acid-76 in Sulfolobus ferredoxin is not required for thermal stability of the molecule. 1193 65
Xylose reductase is a homodimeric
oxidoreductase
dependent on NADPH or NADH and belongs to the largely monomeric aldo-keto reductase superfamily of proteins. It catalyzes the first step in the assimilation of xylose, an aldose found to be a major constituent monosaccharide of renewable plant hemicellulosic material, into yeast metabolic pathways. It does this by reducing open chain xylose to xylitol, which is reoxidized to xylulose by xylitol dehydrogenase and metabolically integrated via the pentose phosphate pathway. No structure has yet been determined for a xylose reductase, a dimeric aldo-keto reductase or a family 2 aldo-keto reductase. The structures of the Candida tenuis xylose reductase apo- and holoenzyme, which crystallize in spacegroup C2 with different unit cells, have been determined to 2.2 A resolution and an R-factor of 17.9 and 20.8%, respectively. Residues responsible for mediating the novel dimeric interface include
Asp
-178, Arg-181, Lys-202, Phe-206, Trp-313, and Pro-319. Alignments with other superfamily members indicate that these interactions are conserved in other dimeric xylose reductases but not throughout the remainder of the oligomeric aldo-keto reductases, predicting alternate modes of oligomerization for other families. An arrangement of side chains in a catalytic triad shows that Tyr-52 has a conserved function as a general acid. The loop that folds over the NAD(P)H cosubstrate is disordered in the apo form but becomes ordered upon cosubstrate binding. A slow conformational isomerization of this loop probably accounts for the observed rate-limiting step involving release of cosubstrate. Xylose binding (K(m) = 87 mM) is mediated by interactions with a binding pocket that is more polar than a typical aldo-keto reductase. Modeling of xylose into the active site of the holoenzyme using ordered waters as a guide for sugar hydroxyls suggests a convincing mode of substrate binding.
...
PMID:The structure of apo and holo forms of xylose reductase, a dimeric aldo-keto reductase from Candida tenuis. 1210 21
Azurin is a copper-containing protein involved in electron transfer during denitrification. We reported recently that purified azurin demonstrates cytotoxicity to macrophages by forming a complex with the tumour-suppressor protein p53, thereby stabilizing it and enhancing its function as an inducer of proapoptotic activity (Yamada, T., Goto, M., Punj, V., Zaborina, O., Kimbara, K., Das Gupta, T. K., and Chakrabarty, A. M. 2002, Infect Immun70: 7054-7062). It is, however, not known whether the
oxidoreductase
(redox) activity of azurin or the involvement of copper is important for its cytotoxicity. We have isolated apo-azurin devoid of copper and site-directed mutants that are redox negative because of either replacement of a cysteine residue (Cys-112) involved in co-ordination with copper or mutational replacement of two methionine residues (Met-44 and Met-64) that are present in the hydrophobic patch of azurin and allow interaction of azurin with its redox partner cytochrome c551. We demonstrate that, although the wild type (wt) and the Cys-112
Asp
mutant azurin can form complexes with the tumour-suppressor protein p53 and generate high levels of reactive oxygen species (ROS), the redox-negative Met-44LysMet-64Glu mutant azurin is defective in complex formation with p53, generates low levels of ROS and lacks appreciable cytotoxicity towards macrophages. Thus, complex formation with p53 and ROS generation, rather than azurin redox activity, are important in the cytotoxic action of azurin towards macrophages.
...
PMID:Induction of apoptosis in macrophages by Pseudomonas aeruginosa azurin: tumour-suppressor protein p53 and reactive oxygen species, but not redox activity, as critical elements in cytotoxicity. 1251 4
Multiple sequence alignment and analysis of evolutionary relationships have been used to characterize a family of polyol-specific long-chain dehydrogenases/reductases (PSLDRs). At the present time, 66 known and putative NAD(P)H-dependent oxidoreductases of mainly prokaryotic origin and between 357 and 544 amino acids in length constitute this family. The family is shown to include D-mannitol 2-dehydrogenase, D-mannonate 5-
oxidoreductase
, D-altronate 5-
oxidoreductase
, D-arabinitol 4-dehydrogenase, and D-mannitol-1-phosphate 5-dehydrogenase which form individual sub-families (defined by internal sequence identity of >/=30%) having distant origin and divergent substrate specificity but clearly displaying entire-chain relationship. When all forms are aligned, only three residues, Gly-33,
Asp
-230, and Lys-295 (in the numbering of Pseudomonas fluorescens D-mannitol 2-dehydrogenase (PsM2DH)) are strictly conserved. By combining sequence alignment with the known structure of PsM2DH and results from site-directed mutagenesis, we have developed a structure/function analysis for the family. Gly-33 is in the N-terminal coenzyme-binding domain and part of a nucleotide fingerprint region for the family, and
Asp
-230 and Lys-295 are at an interdomain segment contributing to the active site in which the lysine likely functions as the catalytic general acid/base. PSLDRs do not require a metal cofactor for activity and are specific for transferring the 4-pro-S hydrogen from NAD(P)H. Comparisons reveal that the core part of the two-domain fold has been conserved throughout all family members, perhaps reflecting the recruitment of a stable
oxidoreductase
structure and extensive trimming thereof to acquire functional properties specific to each sub-family. They also identify interactions that define the chemical mechanism of oxidoreduction and likely contribute to substrate and co-substrate specificities and are thus relevant for protein engineering.
...
PMID:Pseudomonas fluorescens mannitol 2-dehydrogenase and the family of polyol-specific long-chain dehydrogenases/reductases: sequence-based classification and analysis of structure-function relationships. 1260 42
There is a region exhibiting a similarity of amino acid sequence near the carboxyl-terminal segment of each FAD-containing
oxidoreductase
. In this region, four amino acid residues-Thr, Ala, Gly, and
Asp
-are highly conserved. To determine the involvement of the four amino acid residues (Thr-469, Ala-476, Gly-478, and
Asp
-479) in the activity of NADH dehydrogenase of an alkaliphilic Bacillus, mutations of these amino acid residues were conducted. In spite of high conservation, mutations of Thr-469 and Ala-476 to Ala and Ser, respectively, did not lead to a critical loss of enzyme activity. However, mutations of Gly-478 and
Asp
-479 to Ala caused a complete loss of the activity, which appears to result from the loss of binding capacity of FAD.
...
PMID:Involvement of glycine and aspartate residues in the binding capacity of FAD in the NADH dehydrogenase from an alkaliphilic Bacillus. 1273 50
Exchangeable protons in the immediate neighborhood of the semiquinone (SQ) at the Qi-site of the bc1 complex (ubihydroquinone:cytochrome c
oxidoreductase
(EC 1.10.2.2)) from Rhodobacter sphaeroides have been characterized using electron spin echo envelope modulation (ESEEM) and hyperfine sublevel correlation spectroscopy (HYSCORE) and visualized by substitution of H2O by 2H2O. Three exchangeable protons interact with the electron spin of the SQ. They possess different isotropic and anisotropic hyperfine couplings that allow a clear distinction between them. The strength of interactions indicates that the protons are involved in hydrogen bonds with SQ. The hyperfine couplings differ from values typical for in-plane hydrogen bonds previously observed in model experiments. It is suggested that the two stronger couplings involve formation of hydrogen bonds with carbonyl oxygens, which have a significant out-of-plane character due to the combined influence of bulky substituents and the protein environment. These two hydrogen bonds are most probably to side chains suggested from crystallographic structures (His-217 and
Asp
-252 in R. sphaeroides). Assignment of the third hydrogen bond is more ambiguous but may involve either a bond between Asn-221 and a methoxy O-atom or a bond to water. The structural and catalytic roles of the exchangeable protons are discussed in the context of three high resolution crystallographic structures for mitochondrial bc1 complexes. Potential H-bonds, including those to water molecules, form a network connecting the quinone (ubiquinone) occupant and its ligands to the propionates of heme bH and the external aqueous phase. They provide pathways for exchange of protons within the site and with the exteriors, needed to accommodate the different hydrogen bonding requirements of different quinone species during catalysis.
...
PMID:Hydrogen bonds involved in binding the Qi-site semiquinone in the bc1 complex, identified through deuterium exchange using pulsed EPR. 1473 69
The H(+)(Na(+))-translocating NADH-quinone (Q)
oxidoreductase
(NDH-1) of Escherichia coli is composed of 13 different subunits (NuoA-N). Subunit NuoA (ND3, Nqo7) is one of the seven membrane domain subunits that are considered to be involved in H(+)(Na(+)) translocation. We demonstrated that in the Paracoccus denitrificans NDH-1 subunit, Nqo7 (ND3) directly interacts with peripheral subunits Nqo6 (PSST) and Nqo4 (49 kDa) by using cross-linkers (Di Bernardo, S., and Yagi, T. (2001) FEBS Lett. 508, 385-388 and Kao, M.-C., Matsuno-Yagi, A., and Yagi, T. (2004) Biochemistry 43, 3750-3755). To investigate the structural and functional roles of conserved charged amino acid residues, a nuoA knock-out mutant and site-specific mutants K46A, E51A, D79N, D79A, E81Q, E81A, and D79N/E81Q were constructed by utilizing chromosomal DNA manipulation. In terms of immunochemical and NADH dehydrogenase activity-staining analyses, all site-specific mutants are similar to the wild type, suggesting that those NuoA site-specific mutations do not significantly affect the assembly of peripheral subunits in situ. In addition, site-specific mutants showed similar deamino-NADH-K(3)Fe(CN)(6) reductase activity to the wild type. The K46A mutation scarcely inhibited deamino-NADH-Q reductase activity. In contrast, E51A, D79A, D79N, E81A, and E81Q mutation partially suppressed deamino-NADH-Q reductase activity to 30, 90, 40, 40, and 50%, respectively. The double mutant D79N/E81Q almost completely lost the energy-transducing NDH-1 activities but did not display any loss of deamino-NADH-K(3)Fe(CN)(6) reductase activity. The possible functional roles of residues
Asp
-79 and Glu-81 were discussed.
...
PMID:Functional roles of four conserved charged residues in the membrane domain subunit NuoA of the proton-translocating NADH-quinone oxidoreductase from Escherichia coli. 1517 26
The dominant role of long-range electrostatic interatomic interactions in nicotinamide adenine dinucleotide/nicotinamide adenine dinucleotide phosphate (NAD/NADP) cofactor recognition has been shown for enzymes of the short-chain
oxidoreductase
(SCOR) family. An estimation of cofactor preference based only on the contribution of the electrostatic energy term to the total energy of enzyme-cofactor interaction has been tested for approximately 40 known three-dimensional (3D) crystal complexes and approximately 330 SCOR enzymes, with cofactor preference predicted by the presence of
Asp
or Arg recognition residues at specific 3D positions in the beta2alpha3 loop (Duax et al., Proteins 2003;53:931-943). The results obtained were found to be consistent with approximately 90% reliable cofactor assignments for those subsets. The procedure was then applied to approximately 170 SCOR enzymes with completely uncertain NAD/NADP dependence, due to the lack of
Asp
and Arg marker residues. The proposed 3D electrostatic approach for cofactor assignment ("3D_DeltaE(el)") has been implemented in an automatic screening procedure, and together with the use of marker residues proposed earlier (Duax et al., Proteins 2003;53:931-943), increases the level of reliable predictions for the putative SCORs from approximately 70% to approximately 90%. It is expected to be applicable for any NAD/NADP-dependent enzyme subset having at least 25-30% sequence identity, with at least one enzyme of known 3D crystal structure.
...
PMID:Rational proteomics II: electrostatic nature of cofactor preference in the short-chain oxidoreductase (SCOR) enzyme family. 1534 Sep 16
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