A GENETIC STUDY OF AGGREGATION IN THE CELLULAR SLIME MOULD  DICTYOSTELIUM DISCOIDEUM USING COMPLEMENTATION ANALYSIS

A GENETIC STUDY OF AGGREGATION IN THE CELLULAR SLIME MOULD DICTYOSTELIUM DISCOIDEUM USING COMPLEMENTATION ANALYSIS

Keith L. Williams ¹ and Peter C. Newell ¹

¹ Department of Biochemistry, University of Oxford, South Parks Road, Oxford, OXI 3QU, England

A series of aggregation-deficient (aggregateless) mutants were isolatedin genetically marked haploid strains of the cellular slimemould Dictyostelium discoideum. Diploids were produced frompairs of such haploid mutants by a fusion system based on thisorganism's parasexual cycle. The diploids were isolated fromthe haploids by using complementation of non-allelic growth-temperature-sensitivemutations and selection at the restrictive temperature. Complementationbetween the aggregateless mutations was then assessed in 419 diploidsso formed. The non-complementing aggregateless mutations fellinto five complementation groups (agoA, B, C, D and E) and a dominantaggregation class that allowed little or no aggregation whenpresent in a diploid with any of the other mutations testedor the parental wild type. Complicating factors, including partialdominance, multiple mutations, and possible interallelic complementation,are discussed. Data on the linkage of the aggregateless mutationswas obtained by using recessive drug resistance mutations onthree linkage groups to segregate haploids from the diploids. Calculationsfrom our results suggest a genetic complexity of about 50 genes thatare specific and essential for aggregation.

Submitted on May 13, 1975
Revised on October 28, 1975

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A GENETIC STUDY OF AGGREGATION IN THE CELLULAR SLIME MOULD DICTYOSTELIUM DISCOIDEUM USING COMPLEMENTATION ANALYSIS

Keith L. Williams 1 and Peter C. Newell 1

Keith L. Williams ¹ and Peter C. Newell ¹