Blocking polyadenylation of mRNA in the chloroplast inhibits its degradation

The addition of poly(A)-rich sequences to endonuclease cleavage products of chloroplast mRNA has recently been suggested to target the polyadenylated RNA for rapid exonucleolytic degradation. This study analyzed whether the addition of a poly(A)-rich tail to RNA molecules is required for degradation by chloroplast exonuclease(s). In lyzed chloroplasts from spinach, addition of the polyadenylation inhibitor, cordycepin triphosphate (3′-dATP), inhibited the degradation of psbA and rbcL mRNAs. Furthermore, degradation intermediates generated by endonucleolytic cleavages accumulated. Similar results were obtained when yeast tRNA was added to the mRNA degradation system as a non-specific exoribonuclease inhibitor. Nevertheless, the stabilization mechanisms differ: while tRNA directly affects the exonuclease activity, 3′dATP has an indirect effect by inhibiting polyadenylation. The results indicate that the addition of poly(A)-rich sequences to endonucleolytic cleavage products of chloroplast mRNA is required to target these RNAs for rapid exonucleolytic degradation. Together with previous work, the data reported here support a model for mRNA degradation in the chloroplast in which endonucleolytic cleavages are followed by the addition of poly(A)-rich sequences to the proximal cleavage products, targeting these RNAs for rapid exonucleolytic decay.