Mutants of Chlamydomonas moewusii with Impaired Motility

Abstract

The object of these investigations was to apply physiological genetics to the study of flagellar movement Thirteen mutants with paralyzed flagella were obtained by the use of UV irradiation and a special enrichment technique. Eleven of these were obtained in both mating types by crossing with wild type. No sexual activity was elicited in M. 1060 (minus). No allelism was detected among the remaining 12 mutants. In M. 1002 plus, the locus for paralysis appears to be very closely linked with that of mating type. In certain mutants, paralyzed plus gametes, when paired with wild-type minus, recovered motility after some hours. Recovery is attributed to the passage of motility factors across the protoplasmic bridge linking the paired gametes. Paralyzed minus cells may act as donors of such factors when paired with paralyzed plus cells of an unlike mutant strain. The pairs formed by mating genetically dissimilar gametes are considered as heterokaryons, which can be used to provide information on the identity or non-identity of genes associated with paralysis. The role of a number of transmissible factors in normal flagellar activity is thereby implicated.