Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nucleotide ligation site of adenylylated glutamine synthetase, which contains a unique tyrosyl residue linked through a phosphodiester bond to 5'-AMP, was studied by digestion with three hydrolytic enzymes. The products on micrococcal nuclease digestion were adenosine and o-phosphotyrosyl glutamine synthetase. The Km for this macromolecular substrate with the nuclease was 40 microM, at pH 8.9. The glutamine synthetase activity was not affected by deadenosylation with the nuclease, in contrast to SVPDE digestion, with which the glutamine synthetase activity was markedly increased. The Km for the native adenylylated glutamine synthetase with the SVPDE was 36 microM, i.e., similar to that for the nuclease. When the isolated o-phosphotyrosyl enzyme was incubated with alkaline phosphatase at pH 7.2, the glutamine synthetase activity rapidly increased to the same level as that of the SVPDE treated enzyme. Furthermore, kinetic properties of the o-phosphotyrosyl glutamine synthetase were compared with those of the adenylylated enzyme. The optimum pH, apparent Km for each of three substrates, glutamate, ATP, and NH3, and Vmax were in good agreement, as to either Mg2+- or Mn2+-dependent biosynthetic activity. From these results we can conclude that the regulation of glutamine synthetase activity simply requires the phosphorylation of the tyrosyl residue in each subunit, without recourse to adenylylation.
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PMID:o-Phosphotyrosyl glutamine synthetase: modification of the nucleotide ligation site of adenylylated glutamine synthetase. 247 84

o-Phosphotyrosyl glutamine synthetase (P-GS) was isolated from highly adenylated glutamine synthetase (AMP-GS) purified from Mycobacterium phlei, by treatment with micrococcal nuclease. The physical characteristics of P-GS were quite similar to those of AMP-GS except for the UV-absorption spectrum. In either Mg2+- or Mn2+-dependent biosynthetic reactions, the kinetic properties, such as optimum pH, Vmax, and apparent Km for each of three substrates of P-GS, were found to be in good agreement with those of AMP-GS. The biosynthetic activity of P-GS was markedly increased after treatment with alkaline phosphatase similarly as in the deadenylylation of AMP-GS by snake venom phosphodiesterase treatment. These results revealed that repression of glutamine synthetase activity simply requires the phosphorylation of the tyrosyl residue, without recourse to adenylylation.
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PMID:Regulation of glutamine synthetase activity by phosphorylation instead of by adenylylation. 290 54

The activity of micrococcal nuclease was studied on a novel substrate, denatured adenylylated glutamine synthetase [L-glutamate: ammonia ligase (ADP-forming), EC 6.3.1.2], which contains a unique tyrosyl residue linked through a phosphodiester bond to 5'-AMP. The products of the digestion were adenosine and O-phosphotyrosylglutamine synthetase. The Km of the macromolecular substrate with the nuclease was 1/40 that of the synthetic substrate, nitrophenyl-pdT, which is commonly used for assay of the enzyme. Native adenylylated glutamine synthetase was not deadenosylated by micrococcal nuclease under the conditions that permit rapid deadenosylation of denatured glutamine synthetase. Failure to attack native glutamine synthetase is probably not due to steric factors because the native enzyme is deadenylylated by snake venom phosphodiesterase under identical conditions. The inability of micrococcal nuclease to deadenosylate native glutamine synthetase may be due to the formation of an inactive complex because the native protein inhibited the nuclease activity on the denatured protein.
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PMID:Micrococcal nuclease cleavage of nucleotide linked to glutamine synthetase yields phosphotyrosine at the ligation site. 618 62