Better understanding how the truffles reproduce has major implications for farmers, chefs, and foodies enamored with the expensive, pungent fungus.
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Abstract
Genomic exclusion, an unusual cytogenetic sequence during mating in Tetrahymena pyriformis, results in the production of homozygous germinal nuclei by the diploidization of haploid nuclei following meiosis. A method is presented for selecting cells that have made new somatic nuclei from these homozygous germinal nuclei, a step necessary for phenotypic expression of new mutations; this variation of the normal set of events is termed short-circuit genomic exclusion. The utility of thisapproach for obtaining induced mutations is demonstrated by the isolation and analysis of a strain homozygous for a recessive mutation conferring resistance to 2-fluoroadenosine. Occurring in about 5% of the unmutagenized pairs in specific crosses, short-circuit genomic exclusion should be of general use for the isolation of dominant or recessive induced mutations in this protozoan.
Isolation of homozygous mutants after induced self-fertilization in Tetrahymena
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