Abstract
Several, stable amoebal strains which differ phenotypically from the diploid parental amoebal strain have been obtained in the MyxomycetePhysarum polycephalum. They were detected using their flagellation pattern as a discriminating parameter. This approach is valid since the number of flagella by phase contrast microscopy correlates with the number of anterior centrioles obtained using three-dimensional reconstructions of the nucleo-flagellar complexes from serial thin sections. The complexity of the structures of the various nucleo-flagellar complexes suggests that in these strains the duplication time of centrioles is not strictly regulated as it is in haploid amoebae. In agreement with this hypothesis, several pro-centrioles were observed in interphase amoebae. Although the anterior centrioles are linked to the mtoc 1 during interphase, the number of mtoc 1 cannot regulate the number of centrioles since some strains possess two mtoc 1 but only one pair of centrioles. Neither the number of centrioles nor the number of mtoc 1 are related to ploidy. Stable strains with one (all haploid strains), two (some diploid strains) and three (some diploid strains) mtoc 1 have been observed. Thus each mtoc 1 is duplicated once per cell cycle implying that it must possess some information which plays a role in the morphogenesis of the new mtoc 1. Except in one case, the number of mitotic abnormalities increases exponentially with the number of mtoc 1. This observation suggests that the mtoc 1 could correspond to the interphase state of the mitotic center.
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