Abstract
A unique feature of eucaryotic adenylate cyclases is their interaction with GTP-binding proteins that mediate hormonal responses. Until now, there has been no evidence for regulation of Escherichia coli adenylate cyclase by a GTP-binding protein. We describe here that the most abundant protein in E. coli, the GTP-binding protein EF-Tu, which is important as an elongation factor in protein synthesis, also serves as a stimulator of adenylate cyclase activity. Homogeneous EF-Tu specifically increased the activity of purified adenylate cyclase as much as 70%; other E. coli GTP-binding proteins had no effect on enzyme activity. A study of the guanine nucleotide specificity for EF-Tu-mediated stimulation of adenylate cyclase activity suggested that the preferred activator is EF-Tu X GDP. To account for the GTP-specific stimulation of adenylate cyclase activity observed in intact cells, we propose that the nucleotide specificity for EF-Tu-dependent activation of adenylate cyclase is governed by other factors in the cell.
Highlights
The activity of a purified preparation (10% pure) of adenylate cyclase was stimulated by the additionof homogeneous
That the mostabundant protein in E. coli, the GTP- Tu toadenylate cyclase (0.4pg/ml) is 250:1, which is close to binding protein elongation factor Tu (EF-Tu), which is important as an elon- the cellular ratio of these proteinsof about 1OOO:l
It has been gation factor in protein synthesis,alsoservesas a noted that EF-Tu is the most abundant protein
Summary
The activity of a purified preparation (10% pure) of adenylate cyclase was stimulated by the additionof homogeneous. A unique feature of eucaryotic adenylate cyclases is their interaction with GTP-binding proteins that mediate hormonal responses. EF-Tu increased the activity of purified adenylate cyclase as much as 70%;other E. coli GTPbinding proteins had no effect on enzyme activity.
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