Abstract

A chloroplast gene, ycf5, which displays limited sequence identity to bacterial genes (ccl1/cycK) required for the biogenesis of c-type cytochromes, was tested for its function in chloroplast cytochrome biogenesis in Chlamydomonas reinhardtii. Targeted inactivation of the ycf5 gene results in a non-photosynthetic phenotype attributable to the absence of c-type cytochromes. The cloned ycf5 gene also complements the phototrophic growth deficiency in strain B6 of C. reinhardtii. B6 is unable to synthesize functional forms of cytochromes f and c6 owing to a chloroplast genome mutation that prevents heme attachment. The selected (phototrophic growth) as well as the unselected (holocytochrome c6 accumulation) phenotypes were restored in complemented strains. The complementing gene, renamed ccsA (for c-type cytochrome synthesis), is expressed in wild-type and B6 cells but is non-functional in B6 owing to an early frameshift mutation. Antibodies raised against the ccsA gene product recognize a 29-kDa protein in C. reinhardtii. The 29-kDa protein is absent in strain B6 but is restored in a spontaneous revertant (B6R) isolated from a culture of B6. Sequence analysis of the ccsA gene in strain B6R indicates that it is a true revertant. We conclude that the ccsA gene is expressed and that it encodes a protein required for heme attachment to c-type cytochromes.

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