期刊
CELLULAR AND MOLECULAR LIFE SCIENCES
卷 63, 期 15, 页码 1736-1751出版社
SPRINGER BASEL AG
DOI: 10.1007/s00018-006-6072-0
关键词
adenylyl cyclase; cAMP; regulation; catalysis; structural transition
Class III adenylyl cyclases are the most abundant type of cyclic AMP-producing enzymes. The adjustment of the cellular levels of this second messenger is achieved by a variety of regulatory mechanisms which couple signals to adenylyl cyclase activity. Because of the divergent nature of stimuli which impinge on these enzymes, highly individualized class III adenylyl cyclases have evolved in metazoans, eukaryotic unicells and bacteria. Regulation usually exploits the dimeric structure of the catalyst, whose active centres form at the dimer interface. The fold of the catalytic domains and the basic catalytic mechanisms are similar in all class III adenylyl cyclases, and substrate binding generally closes the active site by an induced-fit mechanism. Regulatory inputs can result in dramatic rearrangements of the catalytic domains within the dimer, which often are based on rotational movements.
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