Divalent metal-dependent catalysis and cleavage specificity of CSP41, a chloroplast endoribonuclease belonging to the short chain dehydrogenase/reductase superfamily

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Oxford University Press

RESUMO

CSP41 is a ubiquitous chloroplast endoribonuclease belonging to the short chain dehydrogenase/reductase (SDR) superfamily. To help elucidate the role of CSP41 in chloroplast gene regulation, the mechanisms that determine its substrate recognition and catalytic activity were investigated. A divalent metal is required for catalysis, most probably to provide a nucleophile for cleavage 5′ to the phosphodiester bond, and may also participate in cleavage site selection. This requirement distinguishes CSP41 from other Rossman fold-containing proteins from the SDR superfamily, including several RNA-binding proteins and endonucleases. CSP41 is active only in the presence of MgCl2 and CaCl2. Although Mg2+- and Ca2+-activated CSP41 cleave at identical sites in the single-stranded regions of a stem–loop-containing substrate, Mg2+-activated CSP41 was also able to cleave within the double-stranded region of the stem–loop. Mixed metal experiments with Mg2+ and Ca2+ suggest that CSP41 contains a single divalent metal-binding site which is non-selective, since Mn2+, Co2+ and Zn2+ compete with Mg2+ for binding, although there is no activity in their presence. Using site-directed mutagenesis, we identified three residues, Asn71, Asp89 and Asp103, which may form the divalent metal-binding pocket. The activation constant for Mg2+ (KA,Mg = 2.1 ± 0.4 mM) is of the same order of magnitude as the stromal Mg2+ concentrations, which fluctuate between 0.5 and 10 mM as a function of light and of leaf development. These changes in stromal Mg2+ concentration may regulate CSP41 activity, and thus cpRNA stability, during plant development.

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