The mitochondrial genome ofChlamydomonas

Abstract

Among a collection of obligate photoautotrophic (dark-dier,dk) mutants isolated inChlamydomonas reinhardtii, two have been found which are inherited in crosses to wild type in a non-Mendelian, biparental and apparently random fashion. F₁ progeny include not only cells which show thedk and wildtype parental phenotypes but also many which possess intermediate phenotypes between wild type anddk. When F₁ progeny withdk, intermediate or wild-type phenotype were backcrossed to wild type, thedk phenotype continued to be inherited in a biparental and random fashion. Upon selection, neither mutant formed stable clones producing onlydk progeny, suggesting that the two mutants segregatedk and wild-type progeny somatically and that the homozygousdk condition may be lethal. The biparental transmission of these two non-Mendeliandk mutations resembles the transmission of acriflavin-inducedminute mutations ofChlamydomonas and is distinct from the uniparentally inherited chloroplast mutations of this alga. Both thedk andminute mutations may alter mitochondrial DNA and thereby alter mitochondrial functions.