EC Number |
Natural Substrates |
---|
3.5.1.2 | L-Gln + H2O |
- |
3.5.1.2 | L-Gln + H2O |
constitutive enzyme |
3.5.1.2 | L-Gln + H2O |
contribution of the enzyme to elevated extracellular Glu at 24 h after onset of focal ischemia |
3.5.1.2 | L-Gln + H2O |
kidney enzyme increases during acidosis, skeletal muscle enzyme does not. Under some conditions the enzyme from skeletal muscle is able to catabolize Gln to Glu and further to CO2 |
3.5.1.2 | L-Gln + H2O |
high glutaminase activity may be of importance for optimal insulin secretion elicited by amino acid secretagogues |
3.5.1.2 | L-Gln + H2O |
enzyme plays a key role in urea synthesis by regulating provision of glutamate for synthesis of N-acetylglutamate, the obligatory cofactor of carbamoylphosphate synthetase |
3.5.1.2 | L-Gln + H2O |
the enzyme produces myocardial Glu |
3.5.1.2 | L-Gln + H2O |
enzyme is involved in deamination of Gln to Glu, which is utilized for energy production via the TCA cycle. Glutaminase mRNA increases around the 3rd week of life |
3.5.1.2 | L-glutamine + H2O |
- |
3.5.1.2 | L-glutamine + H2O |
biosynthesis of pyridoxal-5-phosphate |