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: UNIPROT:P17174 (aspartate aminotransferase)
14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recorded 500-MHz 1H NMR spectra in the 10-18-ppm range for aspartate aminotransferase from Escherichia coli and for three specific mutant forms. Histidine 143 has been replaced by either alanine or asparagine. In the third mutant, tryptophan 140 has been replaced by phenylalanine. The NMR spectrum of the native enzyme is very similar to that of porcine cytosolic aspartate aminotransferase in the most downfield region. However, the resonances of the proton on the ring nitrogen of the pyridoxal 5'-phosphate (peak A) and on the His-143 imidazole ring (peak B) of the E. coli enzyme are broader and more readily lost at low pH or higher temperatures than those of the porcine enzyme. The possible role of tautomerism in promoting such broadening is discussed. In the histidine mutant proteins, peak A of the pyridoxal 5'-phosphate form is too broad to see under most conditions but is clearly present in the pyridoxamine phosphate form. Peak B is missing in the 2 histidine mutants. Observation of nuclear Overhauser effects further confirms the identity of B as the resonance of HN epsilon 2 of His-143 and that of peak D at approximately 11.8 ppm as HN epsilon 2 of His-189. The mutant spectra also provide insight into electronic interactions between groups in and near the active site which confirm and supplement conclusions drawn from spectra of porcine cAspAT. While no clear loss of a peak was observed for the Trp-140 mutant in its free form, the spectrum of the succinate complex lacked a strong band at 11.26 ppm. This may represent the Trp-140 indole NH proton which has been shifted downfield by binding to a succinate carboxylate group. While our results confirm the basic similarity of cytosolic aspartate aminotransferase and E. coli aspartate aminotransferase 1H NMR spectra, they also point out differences that may be useful in identifying resonances. A large number of mutant proteins have been prepared for the E. coli enzyme. The present results provide essential information for future study of these mutants and for study of NMR spectra of isotopically labeled enzyme.
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PMID:NMR studies of 1H resonances in the 10-18-ppm range for aspartate aminotransferase from Escherichia coli. 796 37

A multiple sequence alignment among aspartate aminotransferase, dialkylglycine decarboxylase, and serine hydroxymethyltransferase (DAS) was used for profile databank search. The DAS profile could detect similarities to other pyridoxal or pyridoxamine phosphate-dependent enzymes, like several gene products involved in dideoxysugar and deoxyaminosugar synthesis. The alignment among DAS and such gene products shows the conservation of aspartate 222 and lysine 258, which, in aspartate aminotransferase, interacts with the N1 of the coenzyme pyridine ring and forms the internal Schiff base, respectively. The lysine is replaced by histidine in the pyridoxamine phosphate-dependent gene products. The alignment indicates also that the region encompassing the coenzyme binding site is the most conserved.
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PMID:Similarity between pyridoxal/pyridoxamine phosphate-dependent enzymes involved in dideoxy and deoxyaminosugar biosynthesis and other pyridoxal phosphate enzymes. 800 88

Serum amino acid (AA) profiles are altered in epilepsy. It is not clear whether this is due to the disease process itself or to other variables such as seizure type, seizure frequency, duration of illness, medication, or altered liver function. We investigated serum AA profiles and liver enzymes in 73 epileptic patients and 90 healthy subjects and evaluated the data by analysis of variance to discriminate between age, sex, seizure type, duration of illness, seizure frequency, antiepileptic drug (AED) and increased serum liver enzyme levels, and their putative interaction with the serum AA profile. There was no correlation between the changes in the AA profile and age, duration of illness, seizure frequency, and seizure type. Seventy-two percent of the AED-treated patients and 33% of the unmedicated patients showed an increase in one or several serum liver enzymes [alanine aminotransferase (ALT), aspartate aminotransferase (AST), and/or gamma-glutamyl transferase (gamma-GT)]; particularly gamma-GT. We observed a significant increase in serum concentrations of glutamine and glycine and decreased levels of taurine, threonine, serine, valine, methionine, isoleucine, leucine, phenylalanine, histidine, tryptophan, and arginine in AED-treated patients but not in unmedicated patients. These results show that the changes in the serum AA profiles of epileptic patients treated with AEDs occur in patients with alteration of serum liver enzymes; whether this implies a causal relation is still uncertain.
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PMID:Serum amino acids, liver status, and antiepileptic drug therapy in epilepsy. 809 92

Tyr70 of chicken mitochondrial aspartate aminotransferase was replaced with a histidine residue by oligonucleotide-directed mutagenesis. Aspartate aminotransferase Y70H retained at pH 7.5 13% of the activity toward dicarboxylic amino acids, whereas the activity toward aromatic amino acids was only 0.6% of that of the wild-type enzyme, corresponding to a 22-fold increase in the ratio of the activities toward these two types of substrates. In comparison to that of the wild-type enzyme, the low-pH limb of the pH-activity profile of the mutant enzyme was shifted to higher pH values, very likely reflecting the titration curve of the newly introduced histidine residue with a pKa' of 6.3. Apparently, a positively charged residue at position 70 abolishes enzymic activity. The spectrophotometrically determined pKa' value of the internal aldimine formed between pyridoxal 5'-phosphate and Lys258 in the mutant enzyme was 6.0, similar to that in the wild-type enzyme. The rate constant of the dissociation of pyridoxamine 5'-phosphate from the mutant enzyme was increased only 3 times over that of the wild-type enzyme, in contrast to the 80-fold increase in Escherichia coli aspartate aminotransferase Y70F [Toney, M. D., & Kirsch, J. F. (1987) J. Biol. Chem. 262, 12403-12405], suggesting that His70 can replace Tyr70 in forming a hydrogen bond to the coenzyme.
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PMID:Shift in pH-rate profile and enhanced discrimination between dicarboxylic and aromatic substrates in mitochondrial aspartate aminotransferase Y70H. 813 Jan 87

If the pyridoxal-phosphate-binding lysine residue 258 of aspartate aminotransferase is exchanged for a histidine residue, the enzyme retains partial catalytic competence [Ziak, M., Jaussi, R., Gehring, H. and Christen, P. (1990) Eur. J. Biochem. 187, 329-333]. The three-dimensional structures of the mutant enzymes of both chicken mitochondria and Escherichia coli were determined at high resolution. The folding patterns of the polypeptide chains proved to be identical to those of the wild-type enzymes, small conformational differences being restricted to parts of the active site. If aspartate or glutamate was added to the pyridoxal form of the mutant enzyme [lambda max 392 nm and 330 nm (weak); negative CD at 420 nm, positive CD at 370 nm and 330 nm], the external aldimine (lambda max = 430 nm; negative CD at 360 nm and 430 nm) transiently accumulated. Upon addition of 2-oxoglutarate to the pyridoxamine form (lambda max 330 nm, positive CD), a putative ketamine intermediate could be detected; however, with oxalacetate, an equilibrium between external aldimine and the pyridoxal form, which was strongly in favour of the former, was established within seconds. The transamination cycle with glutamate and oxalacetate proceeds only three orders of magnitude more slowly than the overall reaction of the wild-type enzyme. The specific activity of the mutant enzyme is 0.1 U/mg at 25 degrees C and constant from pH 6.0 to 8.5. Reconstitution of the mutant apoenzyme with [4'-3H]pyridoxamine 5'-phosphate resulted in rapid release of 3H with a first-order rate constant kappa' = 5 x 10(-4) s-1 similar to that of the wild-type enzyme. Apparently, in aspartate aminotransferase, histidine can to some extent substitute for the active-site lysine residue. The imidazole ring of H258, however, seems too distant from C alpha and C4' to act efficiently as proton donor/acceptor in the aldimine-ketamine tautomerization, suggesting that the prototropic shift might be mediated by an intervening water molecule. Transmination of the internal to the external aldimine apparently can be replaced by de novo formation of the latter, and by its hydrolysis in the reverse direction.
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PMID:Mutant aspartate aminotransferase (K258H) without pyridoxal-5'-phosphate-binding lysine residue. Structural and catalytic properties. 843 9

A general integrated rate equation was fit to reaction progress curves catalyzed by wild-type E. coli aspartate aminotransferase and the site-specific mutant enzymes, H193Q and Y70F. A nonlinear step-regression code, revised for this study selected from all kinetic constants in a general integrated rate equation for all unbranched enzyme mechanisms with stoichiometries upto two substrates and two products including terms for substrate inhibitions and that of an exogenous inhibitor. For each aspartate aminotransferase enzyme studied only kinetic constants consistent with a substituted enzyme mechanism were found statistically significant, thus the enzyme mechanism and sources of inhibition were determined objectively by statistics. The kinetic constants for wild-type and Y70F aspartate aminotransferase were similar to those previously reported indicating the validity of the integrated rate equation analysis. Minor changes in kinetic constants were observed for the H193Q mutant enzyme suggesting that the catalytic effects of the electrostatic hydrogen bonding network extending from the pyridine nitrogen of the cofactor through Asp-222, His-189 ends prior to His-193.
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PMID:Analysis of wild-type and mutant aspartate aminotransferases using integrated rate equations. 884 76

The FruR regulator of Escherichia coli controls the initiation of transcription of several operons encoding a variety of proteins involved in carbon and energy metabolism. The sequence determinants of the FruR-binding site were analysed by using 6x His-tagged FruR and a series of double-stranded randomized oligonucleotides. FruR consensus binding sites were selected and characterized by several consecutive rounds of the polymerase chain reaction-assisted binding-site selection method (BSS) using nitrocellulose-immobilized DNA-binding protein. FruR was demonstrated to require, for binding, an 8 bp left half-site motif and a 3 bp conserved right half-site with the following sequence: 5'-GNNGAATC/GNT-3'. In this sequence, the left half-site AATC/ consensus tetranucleotide is a typical motif of the DNA-binding site of the regulators of the GalR-Lacl family. On the other hand, the high degree of degeneracy found in the right half-site of this palindrome-like structure indicated that FruR, which is a tetramer in solution, interacts asymmetrically with the two half-sites of its operator. However, potentially FruR-target sites showing a high degree of symmetry were detected in 13 genes/operons. Among these, we have focused our interest on the pfkA gene, encoding phosphofructo-kinase-1, which is negatively regulated by FruR.
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PMID:Definition of a consensus DNA-binding site for the Escherichia coli pleiotropic regulatory protein, FruR. 885 81

1. Living-related liver transplantation has some advantages in the evaluation of novel clinical protocols, since many complicated factors affecting initial graft function are almost uniform in grafts obtained from healthy donors. 2. To compare histidine-tryptophan-ketoglutarate (HTK) and University of Wisconsin (UW) solution in terms of tissue oxygenation in living-related liver transplantation, oxygen saturation of haemoglobin (SO2) in hepatic tissue and its heterogeneity (CV, coefficient of variation) were measured by near-infrared spectroscopy. The HTK and UW groups consisted of 15 and 49 successful transplants respectively, in which no statistical differences in background were observed. 3. In the HTK group, hepatic SO2 after portal vein reflow was higher (P < 0.01) than that in the UW group, as was that after hepatic artery reflow (P < 0.05). In the UW group, hepatic SO2 remained at the lower level at the end of the operation. 4. Furthermore, the increase in CV after portal vein reflow was normalized after hepatic artery reflow in the HTK group. However, the CV remained at a high level at the end of the operation in the UW group. 5. Postoperative peak aspartate aminotransferase level in the HTK group was lower than that in the UW group (P < 0.05). 6. In cadaveric liver transplantation, higher hepatic SO2 and lower CV of hepatic SO2 in the early phase after reperfusion compared with the UW group (n = 18) were also observed in the HTK group (n = 30) (P < 0.05). 7. In conclusion, recovery of tissue oxygenation and its heterogeneity after reperfusion in HTK-preserved livers were more rapid and homogeneous than in UW-preserved livers in living-related liver transplantation. Accordingly, HTK solution may be a potential alternative to UW solution.
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PMID:Hepatic preservation with histidine-tryptophan-ketoglutarate solution in living-related and cadaveric liver transplantation. 927 7

5-Aminolevulinate synthase (EC 2.3.1.37) is the first enzyme in the heme biosynthesis in nonplant eukaryotes and some prokaryotes. It functions as a homodimer and requires pyridoxal 5'-phosphate as an essential cofactor. Tyr-121 is a conserved residue in all known sequences of 5-aminolevulinate synthases. Further, it corresponds to Tyr-70 of Escherichia coli aspartate aminotransferase, which has been shown to interact with the cofactor and prevent the dissociation of the cofactor from the enzyme. To test whether Tyr-121 is involved in cofactor binding in murine erythroid 5-aminolevulinate synthase, Tyr-121 of murine erythroid 5-aminolevulinate synthase was substituted by Phe and His using site-directed mutagenesis. The Y121F mutant retained 36% of the wild-type activity and the Km value for substrate glycine increased 34-fold, while the activity of the Y121H mutant decreased to 5% of the wild-type activity and the Km value for glycine increased fivefold. The pKa1 values in the pH-activity profiles of the wild-type and mutant enzymes were 6.41, 6.54, and 6.65 for wild-type, Y121F, and Y121H, respectively. The UV-visible and CD spectra of Y121F and Y121H mutants were similar to those of the wild-type with the exception of an absorption maximum shift (420 --> 395 nm) for the Y121F mutant in the visible spectrum region, suggesting that the cofactor binds the Y121F mutant enzyme in a more unrestrained manner. Y121F and Y121H mutant enzymes also exhibited lower affinity than the wild-type for the cofactor, reflected in the Kd values for pyridoxal 5'-phosphate (26.5, 6.75, and 1.78 microM for Y121F, Y121H, and the wild-type, respectively). Further, Y121F and Y121H proved less thermostable than the wild type. Taken together, these findings indicate that Tyr-121 plays a critical role in cofactor binding of murine erythroid 5-aminolevulinate synthase.
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PMID:The role of tyrosine 121 in cofactor binding of 5-aminolevulinate synthase. 960 26

Methionine consumed during the synthesis of polyamines can be recycled in most organisms by a unique pathway wherein the final step is the transaminative conversion of alpha-ketomethiobutyrate to methionine (KMAT activity). In the trypanosomatid Crithidia fasciculata, three separate aminotransferases (KMAT-A, -B, -T) were found to catalyse this activity. All three aminotransferases were found to utilise aromatic amino acids as the amino donor for the KMAT reaction, but KMAT-A functioned optimally with histidine and KMAT-B with arginine as amino donors. KMAT-T was found to operate best with aromatic amino acids and glutamate as amino donors, and was also found to catalyse aspartate aminotransferase and tyrosine aminotransferase activities. Amino acid sequencing of internal peptides from KMAT-T yielded a sequence with very high identity to vertebrate, cytosolic aspartate aminotransferase. As pig heart cytosolic aspartate and alanine aminotransferases were found to be unable to catalyse KMAT activity, the crithidial enzyme appears to be an aspartate aminotransferase with unusual catalytic properties. Inhibition studies on C. fasciculata homogenates showed that carboxymethoxylamine, canaline, and nitrophenylalanine were effective inhibitors of total KMAT activity (63-100% inhibition at 1 mM in the presence of 1 mM alpha-ketomethiobutyrate and 30 mM total amino acid as substrates) and the individual, isolated enzymes. At 1 mg ml-1, canaline was found to inhibit cell growth in vitro by 62%, and carboxymethoxylamine caused cell death within 24 h.
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PMID:Methionine formation from alpha-ketomethiobutyrate in the trypanosomatid Crithidia fasciculata. 974 3


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