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    An Arabidopsis Pentatricopeptide Repeat Is A Moonlighting Protein With Cross-Talking In Vitro Adenylyl Cyclase And Kinase Activities

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    Date
    2023
    Author
    Dikobe, Tshegofatso
    Sehlabane, Katlego
    Bobo, Enetia
    Sibanda‑Makuvise, Angela
    Chatukuta, Patience
    Kawadza, David
    Ruzvidzo, Oziniel
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    Abstract
    Downstream signalling involving adenylyl cyclases (ACs) and kinases is a key component of several processes in plants including cell division, growth, and response to stress. ACs are enzymes that generate the second messenger molecule, 3′,5′-cyclic adenosine monophosphate (cAMP) from 5′-adenosine triphosphate (ATP) while kinases are enzymes that catalyze the addition of a phosphate group to other molecules (trans-phosphorylation) or themselves (auto-phosphorylation). Apparently, while there has been an expanded record of various ACs and kinases identified in plants, no plant molecule to date has been shown to possess both the AC and kinase activities/functions and with such activities/functions having the characteristic of cross-talking interactions. Therefore, in an endeavor to find such a molecule, we searched the amino acid sequence of a known Arabidopsis AC, pentatricopeptide repeat (AtPPR) protein, and found a kinase-specific sequence signature (KSSS), which we speculated to be working in synergy with the AC center in this protein during downstream signalling. So, in order to test if this additional center is catalytically active and perhaps also having some cross-talking interactions with the AC center, we cloned, expressed, and affinity purified a truncated version of AtPPR, harboring both the AC and KSSS centers (AtPPR-AC/K). When tested in vitro, the recombinant AtPPR-AC/K showed a Mn2+-dependent AC activity that is positively enhanced by Ca2+ and HCO3 − and a trans-/auto-phosphorylation kinase activity capable of utilizing both ATP and GTP as substrates and specific to the serine, threonine, and tyrosine amino acids as target residues. In addition, the kinase activity of AtPPR-AC/K was found to be reduced by cAMP while at the same time, it was totally shut down by Ca2+. This thus qualified both cAMP and Ca2+ as molecular switches or modulators, capable of regulating AtPPR functions through cross-talking interactions between the activities of its two domains. Our work, therefore, has essentially established AtPPR as the first member of a new class of moonlighting proteins with AC and kinase activities that have cross-talking interactions between themselves, conceivably presenting this protein as an ideal candidate for further explorations to improve plants, particularly agricultural crops.
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    http://hdl.handle.net/10394/42661
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