Unidirectional gene conversions in the chloroplast of Chlamydomonas interspecific hybrids

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With the goal of studying directly the inheritance and recombination of physically mapped markers on the chloroplast genome, we have recently identified and localized physical differences between the chloroplast DNAs (cpDNAs) of the interfertile algae Chlamydomonas eugametos and C. moewusii. Here we report the inheritance patterns of 24 polymorphic loci mapping throughout the chloroplast genome in hybrids recovered from reciprocal crosses between the two algae. Most polymorphic loci were found to be inherited mainly from the mt+ parent, with no apparent preference for one or the other parental alternatives in reciprocal crosses. Virtually all hybrids, however, inherited exclusively the long alleles of three loci; i.e. an intron in the large subunit ribosomal RNA gene of C. eugametos, a 21 kbp sequence addition in the inverted repeat of the C. moewusii cpDNA and a 5.8 kbp sequence addition in one of the single-copy regions of C. moewusii cpDNA. As these alleles are derived from opposite parental strains, their unidirectional inheritance in hybrids results necessarily from interspecific recombination of cpDNA molecules. We propose that gene conversion events led to the spreading of the long alleles of the three loci.