Lack of expression of micronuclear genes determining two different enzymatic activities in Tetrahymena thermophila

Abstract

Several (albeit indirect) lines of evidence indicate that the 2n germline micronucleus of the ciliate protozoans is not expressed during vegetative growth, even though it resides in the same cytoplasm and in close physical proximity to the actively expressed large somatic macronucleus (45n). To test this hypothesis more directly and quantitatively at the level of biochemically assayable specific enzyme activities, special heterokaryon strains of Tetrahymena thermophila have been constructed which carry the wild-type alleles specifying galactokinase ( galA +) and phenylalanine hydroxylase ( tyrC +) in the micronucleus only. The heterokaryons were assayed for these two enzyme activities using in vitro radiometric assays. No galactokinase or phenylalanine hydroxylase attributable to the micronuclear genes was observed in such heterokaryons. These results extend the observation of lack of micronuclear gene expression to at least two specific genes, i.e., galA and tyrC, as well as extending previous phenotypic observations on heterokaryons and autoradiographic studies of micronuclear RNA synthesis. By conjugating two of these heterokaryons to each other, it is now possible to determine precisely and unambiguously at what point during macronuclear differentiation the genes in the new macronucleus begin to be actively expressed relative to the timing of the extensive molecular changes that accompany the differentiation of the new macronucleus. These heterokaryons thus provide an excellent model system for the investigation of fundamental genetic regulatory mechanisms in operation during the differentiation of an entire eukaryotic genome.