Termination codon-dependent translation of partially overlapping ndhC-ndhK transcripts in chloroplasts.

The chloroplast NAD(P)H dehydrogenase complex, a homologue of mitochondrial complex I, consists of >15 subunits, of which 11 are encoded by the chloroplast genome (ndhA-K). The ndhC and ndhK genes are partially overlapped and cotranscribed in many land plants. The downstream ndhK mRNA possesses 4 possible AUG initiation codons in many dicot plants. By using an efficient in vitro translation system from tobacco chloroplasts, we defined that the major initiation site of tobacco ndhK mRNAs is the third AUG that is located 4 nt upstream from the ndhC stop codon. Mutation of the ndhC stop codon (UAG) arrested translation of the ndhK cistron. Frameshift of the ndhC coding strand inhibited also translation of the distal cistron. The results indicated that ndhK translation depends on termination of the preceding cistron, namely translational coupling. Surprisingly, removal of the ndhC 5'-UTR and its AUG still supported substantial translation of the ndhK cistron. This translation was abolished again by removing the ndhC stop codon. Although translation of the downstream cistron of an overlapping mRNA is generally very low, we found that the ndhC/K mRNA produces NdhK and NdhC in similar amounts. Based on subunit compositions of the bacterial complex I, the stoichiometry of NdhK and NdhC is suggested to be 1:1 in chloroplasts. To meet this stoichiometry, the ndhC/K mRNA is translated not only by a translational coupling event but also by a termination codon-dependent pathway.