Abstract

Adenylyl cyclases (ACs) are a special group of enzymes that catalyze formation of the second messenger molecule, 3',5'-cyclic adenosine monophosphate (cAMP) from 5'-adenosine triphosphate (ATP). Apparently, even though cAMP is increasingly becoming an important signaling molecule in higher plants, the identification of plant ACs has somewhat remained slow. Here we report the recombinant cloning, partial expression and affinity purification of the truncated version (AtAC261-388) of a putative Arabidopsis thaliana protein (AtAC: At3g21465) followed by a demonstration of its inherent enzymatic activity as an AC. Currently, AtAC is not assigned any particular function in A. thaliana but simply annotated as an AC-like protein and, therefore, we targeted it for our study to establish if it is indeed a bona fide AC molecule. From our work, we firstly, show through enzyme immunoassaying and mass spectrometry that the recombinant AtAC261-388 can generate cAMP from ATP in vitro in a manganese-dependent manner that is activated by calcium and hydrogen carbonate. Secondly, we reveal through computational analysis that the AC center of AtAC is solvent-exposed, and amenable to the unhindered access of ATP as a substrate for catalysis. Lastly, we show that the recombinant AtAC261-388 can complement AC-deficiency (cyaA mutation) in SP850 cells when expressed in this mutant Escherichia coli strain.

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