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
Query: EC:3.5.1.4 (
deaminase
)
5,113
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In confirmation of the findings of Gaitonde et al. (1974), a decrease in the brain concentration of threonine and serine, and an increase in glycine, were observed in rats maintained on a thiamin-deficient diet. Similar changes were found in the blood, and the concentration of several other amino acids in the blood decreased significantly. There was a correlation between the concentrations of threonine, serine, aspartate and asparagine in the brain and blood. In experiments in which [U-14C]threonine was injected into rats most of the radioactivity in the brain and blood of control rats was, as expected, in threonine in the acid soluble metabolites. In contrast, a considerable proportion of radioactivity was also found in other amino acids, namely glutamate, glutamine, aspartate,
gamma-aminobutyrate
and alanine, in the brain of thiamin-deficient rats. [U-14C]Threonine was also converted into 14C-labelled lactate and glucose, but the extent of this conversion was severalfold higher in thiamin-deficient than in control rats. This finding gave evidence of the stimulation in thiamin-deficient rats of the catabolism of [U-14C]threonine to [14C]lactate by the aminoacetone pathway catalysed by threonine dehydrogenase, and into succinate via propionate by the alpha-oxobutyrate pathway catalysed by threonine dehydratase (
deaminase
). The measurement of specific radioactivities of glutamate, aspartate and glutamine after injection of [U-14C]threonine, indicated a stimulation of the activities of threonine dehydrogenase and threonine dehydratase (
deaminase
) in the brain of thiamin-deficient rats. The specific radioactivities of glutamate, asparatate and glutamine int he brain were consistent with an alteration in the metabolism of threonine, mainly in the 'large' compartment of the brain of thiamin-deficient rats. The measurement of relative specific radioactivity of proteins after injection of [U-14C]threonine indicated a marked decrease in the synthesis of proteins, mainly in the liver of thiamin-deficient rats.
...
PMID:Conversion of [U-14C]threonine into 14C-labelled amino acids in the brain of thiamin-deficient rats. 118 Sep 21
N-Carbamoyl-beta-alanine (NC beta A)
amidohydrolase
(EC 3.5.1.6) is regulated in opposing fashion by the substrate, NC beta A and the product, beta-alanine. The native enzyme from rat liver has a molecular weight of 235,000 in the absence of ligands. NC beta A and substrate analogs (N-amidino-beta-alanine, N-carbamoyl-glycine) produced association of the enzyme. beta-Alanine and its analog
gamma-aminobutyrate
caused dissociation of the enzyme and produced inhibition. Negative cooperativity was observed for the binding of all ligands as measured by the change in polymerization of the enzyme, with an average Hill coefficient (napp) of 0.5. Enzyme that had been dissociated by preincubation with beta-alanine had little or no initial activity; only after a lag of 9 s was a steady state progress curve evident. The existence of a regulatory site is proposed as a model to explain physical and kinetic data. The enzyme activity was highest in rat liver and detectable in kidney; activity was not detected in brain, lung, muscle, or spleen of rat, nor in mouse Ehrlich ascites tumor cells. The rat liver enzyme has a pH optimum of 6.8, with a Km of 6.5 microM for NC beta A and a Ki of 1.08 mM for beta-alanine at this pH.
...
PMID:Regulation of N-carbamoyl-beta-alanine amidohydrolase, the terminal enzyme in pyrimidine catabolism, by ligand-induced change in polymerization. 310 50
It was previously proposed that plant growth-promoting bacteria that possess 1-aminocyclopropane-1-carboxylic acid (ACC)
deaminase
could utilize ACC that is present in the exudate of germinating canola seeds. The uptake and cleavage of ACC by these bacteria would lower the level of ACC, and thus ethylene within the plant, and reduce the extent of its inhibition on root elongation. To test part of the above mentioned model, ACC levels were monitored in canola seed tissues and exudate during germination. Lower amounts of ACC were present in the exudate and tissues of seeds treated with the plant growth-promoting bacterium Enterobacter cloacae CAL3, than in control seeds treated with MgSO4. The ACC-related compounds, alpha- and gamma-aminobutyric acids, both known to stimulate ethylene production, were also measured in the canola seed exudate and tissues. Approximately the same levels of alpha-aminobutyric acid were present in the exudates of the bacterium-treated seeds and the control seeds, but the amount of alpha-aminobutyric acid was lower in the tissues of the bacterium-treated seeds than in the control seeds. Smaller quantities of
gamma-aminobutyric acid
were seen in both the exudate and tissues of the E. cloacae CAL3-treated seeds than in the control seeds.
...
PMID:Levels of ACC and related compounds in exudate and extracts of canola seeds treated with ACC deaminase-containing plant growth-promoting bacteria. 1135 77
