EC Number |
General Stability |
Reference |
---|
6.1.1.19 | affected by repeated freeze-thaw cycles |
276 |
6.1.1.19 | complexed arginyl-tRNA synthetase is more stable than the free enzyme |
261 |
6.1.1.19 | degradation of the enzyme during purification may be due to the influence of the immobilized tRNA, and is enhanced by high salt concentrations |
262 |
6.1.1.19 | not affected by four freeze-thaw cycles |
272 |
6.1.1.19 | presence of ribosomes or of high concentrations of albumin oppose the conformational change of arginyl-tRNA synthetase which results in a loss of activity when the enzyme is incubated at low concentrations |
274 |
6.1.1.19 | reduced glutathione effectively protects the enzyme from thermal inactivation |
261 |
6.1.1.19 | tRNA reduces thermal inactivation |
261 |
6.1.1.19 | zinc or Triton X-100 increases thermal inactivation |
261 |