Nuclear Roles in the Post‐Conjugant Development of the Ciliate Euplotes aediculatus. III. Roles of Old Macronuclear Fragments in Nuclear and Cortical Development1

Abstract

Following conjugation of the hypotrichous ciliate Euplotes aediculatus, the posterior fragments of the old (prezygotic) macronucleus persist until after the first vegetative division. These fragments remain viable during exconjugant development as shown by their ability to regenerate should the cell's new macronucleus be damaged. It thus seemed possible that these parental nuclear fragments might participate in the development of the new macronucleus and/or the crucial post‐conjugant cortical reorganization that restores the exconjugant cell's ability to feed. This idea was tested by damaging the posterior fragments with various doses of microbeam ultraviolet (UV) light and assessing the results of such treatment on subsequent cortical and nuclear development. When the posterior fragments of the macronucleus were irradiated at the beginning of cortical morphogenesis, the new macronucleus in 1/3 to 1/2 of the cells assumed a “folded” appearance but did not mature. These cells did not undergo cortical reorganization. Cells irradiated at earlier stages did not detectably develop an oral apparatus; their new macronucleus remained arrested at the spherical anlage stage. The results show that the posterior fragments of the parental macronucleus are necessary for normal nuclear and cortical development. These old nuclear fragments appear to influence the growing macronuclear anlage directly and probably the cortex as well. There also appears to be an information flow from the non‐irradiated partner of a persistently joined exconjugant doublet to its irradiated counterpart, enabling normal anlage and cortex development in the irradiated cell.