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Drug
Enzyme
Compound
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Query: EC:1.4.1.2 (
glutamate dehydrogenase
)
4,380
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Beef liver
glutamate dehydrogenase
(
GDH
) is inactivated by the bifunctional reagent, o-
phthalaldehyde
. The initial rate of inactivation follows pseudo first-order kinetics. The reaction of the enzyme with o-
phthalaldehyde
results in isoindole derivative formation which is characterized by typical fluorescence emission and excitation maximum at 410 nm and 337 nm, respectively. The inactivation of
GDH
by o-
phthalaldehyde
is partially prevented by alpha-ketoglutaric acid, whereas NADH does not provide any protection. This clearly indicates that cysteine and lysine residues are located near the alpha-ketoglutaric acid binding center. The dissociation constant of 2.2 mM was obtained for enzyme-alpha-ketoglutaric acid complex. Stoichiometry of o-
phthalaldehyde
binding with
glutamate dehydrogenase
showed that the formation of approximately one isoindole derivative per subunit of
glutamate dehydrogenase
is accompanied by complete loss of activity.
...
PMID:Identification of cysteine and lysine residues present at the active site of beef liver glutamate dehydrogenase by o-phthalaldehyde. 865 17
Incubation of two types of
glutamate dehydrogenase
(
GDH
) isoproteins from bovine brain with o-
phthalaldehyde
resulted in a time-dependent loss of enzyme activity. The inactivation was partially prevented by preincubation of the
GDH
isoproteins with 2-oxoglutarate or NADH. Spectrophotometric studies indicated that the inactivation of
GDH
isoproteins with o-
phthalaldehyde
resulted in isoindole derivatives characterized by typical fluorescence emission spectra with a stoichiometry of one isoindole derivative per molecule of enzyme subunit. There were no differences between the two
GDH
isoproteins in sensitivities to inactivation by o-
phthalaldehyde
indicating that the microenvironmental structures of the
GDH
isoproteins are very similar to each other. Tryptic peptides of the isoproteins, modified with and without protection, identified a selective modification of one lysine as in the region containing the sequence L-Q-H-G-S-I-L-G-F-P-X-A-K for both
GDH
isoproteins. The symbol X indicates a position for which no phenylthiohydantoin-amino acid could be assigned. The missing residue, however, can be designated as an o-
phthalaldehyde
-labeled lysine since the sequences including the lysine residue in question have a complete identity with those of the other mammalian GDHs. Also, trypsin was unable to cleave the labeled peptide at this site. Both amino acid sequencing and compositional analysis identified Lys-306 as the site of o-
phthalaldehyde
binding within the brain
GDH
isoproteins.
...
PMID:Identification of lysine residue involved in inactivation of brain glutamate dehydrogenase isoproteins by o-phthalaldehyde. 1060 7
The purified
glutamate dehydrogenase
(
GDH
) from Sulfolobus solfataricus showed remarkable thermostability and retained 90-95% of the initial activity after incubation at -20 degrees C, 4 degrees C, and 25 degrees C for up to 6 months. Unlike mammalian GDHs, the activity of
GDH
from Sulfolobus solfataricus was not significantly affected by the presence of various allosteric effectors such as ADP, GTP, and leucine. Incubation of
GDH
with increasing concentration of o-
phthalaldehyde
resulted in a progressive decrease in enzyme activity, suggesting that the o-
phthalaldehyde
-modified lysine or cysteine is directly involved in catalysis. The inhibition was competitive with respect to both 2-oxoglutarate (Ki = 30 microM) and NADH (Ki = 100 microM), further supporting a possibility that the o-
phthalaldehyde
-modified residues may be directly involved at the catalytic site. The modification of
GDH
by the arginine-specific dicarbonyl reagent phenylglyoxal was also examined with the view that arginine residues might play a general role in the binding of coenzyme throughout the family of pyridine nucleotide-dependent dehydrogenases. The purified
GDH
was inactivated in a dose-dependent manner by phenylglyoxal. Either NADH or 2-oxoglutarate did not gave any protection against the inactivation caused by a phenylglyoxal. This result indicates that
GDH
saturated with NADH or 2-oxoglutarate is still open to attack by phenylglyoxal. Phenylglyoxal was an uncompetitive inhibitor (Ki = 5 microM) with respect to 2-oxoglutarate and a noncompetitive inhibitor (Ki = 6 microM) with respect to NADH. The above results suggests that the phenylglyoxal-modified arginine residues are not located at the catalytic site and the inactivation of
GDH
by phenylglyoxal might be due to a steric hindrance or a conformational change affected by the interaction of the enzyme with its inhibitor.
...
PMID:Regulatory properties of glutamate dehydrogenase from Sulfolobus solfataricus. 1077 43
