Characterization and complementation analysis of sporogenous mutants ofDictyostelium discoideum

Abstract

Sporogenous mutants of the cellular slime mold Dictyostelium discoideum are defined as mutants which are able to undergo terminal differentiation into spores in monolayer cultures in the presence of millimolar amounts of exogenous cyclic AMP. We describe the morphological development and cellular differentiation of a collection of 12 independently isolated sporogenous mutants of strain V12 M2. All mutants develop more rapidly than do wild-type at an air-water interface, display aberrant morphogenesis, and show overt spore and stalk differentiation as soon as 4 hr after starvation. All mutants differentiate in submerged monolayer culture in the presence of cAMP into variable proportions of spores and stalk cells. A number of the mutants also form both stalk cells and spores in submerged culture in the absence of exogenous cAMP. The spores formed by many of the mutants have a greatly reduced viability. Using parasexual genetics, we have found that two of the 12 mutants analyzed are dominant to wild-type and the remaining ten fall into a minimum of four complementation groups, the overall analysis thus yielding a minimum of four and a maximum of seven complementation groups. Intracellular cAMP levels in vegetative cells are significantly elevated in the two dominant mutants but are similar to wild type in all the other mutants.