Cell fusion competence and its induction in Physarum polycephalum and Didymium iridis

Abstract

In heterothallic Myxomycetes, diploid plasmodia arise when haploid amoebae of two different mating types are cultured together. In this mating process, the amoebae fuse in pairs, and the resulting zygotes develop directly into plasmodia. It has been shown previously that plasmodia start to form in this fashion only when the growing amoebae in a mixed culture reach a critical density. We have investigated the cellular basis of this phenomenon by growing amoebae of different mating type separately from one another and then mixing them to test their mating ability. Amoebae from cultures above and below the critical density were, respectively, competent and incompetent to mate. Furthermore, both partners had to be competent in order for mating to occur. No binucleate cells were formed in mixtures of incompetent amoebae, indicating that they failed to fuse with one another. Incompetent amoebae growing at low density on filters with 0.2-μm pores became competent when the filters were placed on dense cultures of amoebae. We suggest that amoebae release a filter-transmissible material that accumulates during growth and induces the cells to become fusion competent.