Title: Cascade control of E. coli glutamine synthetase
Abstract: Enzymes and regulatory proteins involved in the cascade control of glutamine synthetase activity of Escherichia coli have been separated from one another and the effects of numerous metabolites on each step in the cascade have been determined. The adenylyl transferase (ATase) -catalyzed adenylylation of glutamine synthetase, which requires the presence of the unmodified form of the regulatory protein PII is enhanced by glutamine and is inhibited by either α-ketoglutarate (α-KG) or the uridylylated form (PII·UMP) of the regulatory protein. PII·UMP and α-KG act synergistically to inhibit this activity. In contrast, the PII·UMP-dependent, ATase-catalyzed deadenylylation of glutamine synthetase requires α-KG and ATP and is inhibited by glutamine or PII and synergistically by glutamine plus PII. The capacity of uridylyl transferase (UTase) to catalyze the uridylylation of PII is dependent on the presence of α-KG and ATP and is inhibited by glutamine. The deuridylylation of PII·UMP by the uridylyl removing enzyme (UR) is enhanced by glutamine but is unaffected by α-KG. However, CMP, UMP, and CoA all inhibit activity at 10−6m. High concentrations of ATase inhibit both UR and UTase activities, presumably by binding the regulatory protein. Of more than 50 substances that alter the activity of at least one enzyme in the cascade, only α-KG and glutamine affect the activity at every step. This accounts for the observation that glutamine synthetase activity in vivo is very sensitive to the intracellular ratio of α-KG to glutamine.
Publication Year: 1978
Publication Date: 1978-12-01
Language: en
Type: article
Indexed In: ['crossref', 'pubmed']
Access and Citation
Cited By Count: 44
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