Cell fusion, nuclear fusion, and zygote differentiation during sexual development of Dictyostelium discoideum

Abstract

The fluorescent nuclear stain Hoechst 33258 was used to study the nuclear events during mating of Dictyostelium discoideum in liquid culture. These studies revealed that cell fusion begins about 11 hr after the sexually compatible cultures are mixed and continues until 26 hr. Approximately 37% of the cells fuse during this 15-hr period. At first the fused cells are relatively small, but by 20 hr the fusion products become evident as morphologically distinct giant cells. Starting at 22 hr these giant cells are transformed into true zygotes as nuclear fusion begins. Both the fusion of amebae and the differentiation of zygote giant cells are Ca 2+-dependent events as revealed by studies using EGTA. The nuclear events of zygote differentiation involve nuclear swelling, migration, and fusion. The precise timing of these events has been detailed. Of particular interest for genetic analyses via the macrocyst is the presence of a small population of multinucleate cells (maximum level is 1.67% of the cell population) which usually possess 3 or 4 nuclei but may have as many as 10 or more. Although these multinucleate cells contain many nuclei, our evidence suggests that only one is a zygote nucleus. The genetic implications of these data and the potential value of using the mating system for the analysis of cell fusion are discussed.