Structure and expression of rodent genes encoding the testis-specific cytochrome c. Differences in gene structure and evolution between somatic and testicular variants.

Mammalian testis contains two forms of cytochrome c, one identical to the form found in somatic tissues and a second that is expressed in a stage-specific manner during spermatogenic differentiation. We have isolated both rat and mouse cDNA clones and the rat gene encoding the testis-specific cytochrome c and determined their DNA sequences. The testicular variant displays a number of notable differences with its somatic counterpart. 1) In contrast to the multipseudogene family derived from mammalian somatic cytochrome c genes, the testis gene is single-copy in genomic DNA with no detectable pseudogenes. 2) The rat testis gene is approximately 7 kilobases (kb) long with three introns totaling nearly 6.5 kb whereas the two introns dividing the 2.1-kb somatic gene occupy only 0.9 kb. Introns differ in position as well as size. 3) The testicular variant has a longer 5'-untranslated leader (230 versus 70 base pairs for the somatic gene) with an upstream open reading frame of 129 base pairs beginning with an AUG in a favorable translational context. 4) A single polyadenylation site in the testicular mRNA (approximately 900 nucleotides) contrasts with the three functionally equivalent sites observed in rat somatic messages. 5) Finally, rat and mouse testis cytochromes c differ at 4 amino acid residues as opposed to the complete sequence identity found in the somatic proteins suggesting a shorter unit evolutionary period for these molecules. These observations are consistent with a duplication of an ancestral cytochrome c gene leading to the emergence of novel structural features and regulatory properties likely associated with the striking tissue specificity of the testicular cytochrome c.