The plastocyanin-deficient phenotype of Chlamydomonas reinhardtii Ac-208 results from a frame-shift mutation in the nuclear gene encoding preapoplastocyanin.

Ac-208 is a plastocyanin-deficient mutant of Chlamydomonas reinhardtii that contains only 2-3% of the wild-type level of plastocyanin-encoding mRNA and no detectable plastocyanin. Sequence analysis of the ac-208 plastocyanin-encoding gene reveals a single nucleotide insertion in the first exon compared with the wild-type gene; this alters the reading frame and results in a premature nonsense codon. We have introduced the genomic sequence encoding plastocyanin from a wild-type strain into ac-208 by cotransformation with a selectable marker encoding nitrate reductase. Of 22 nit+ transformants characterized, nine contained additional plastocyanin-encoding sequences (compared with untransformed cells) and each of these nine transformants was found to accumulate the protein. Transformants that do not contain newly introduced plastocyanin sequences retain the plastocyanin-deficient phenotype. The introduced plastocyanin-encoding sequences are stable during mitotic growth in liquid culture over a period of several months, as is expression from the introduced sequences. We suggest that the decreased steady state level of plastocyanin-encoding messages is a consequence of the frame-shift mutation in the structural gene. The ability to complement ac-208 with plastocyanin-encoding sequences will allow the introduction and analysis of in vitro mutagenized plastocyanin sequences in vivo in transgenic C. reinhardtii cells.