Biohistory journal, Spring, 2007

     Our first step in understanding the differentiation of function among cells was to comprehensively collect DNA from cellular slime molds, and then conduct a DNA microarray analysis using DNA microarray. As a result, we discovered there was a difference in the great majority of functioning genes between the unicellular phase and the multicellular phase. Most of them began to convert when the cells began to aggregate. To live as a multicellular body requires making functional roughly the same amount of genes necessary for the unicellular phase. The cellular slime mold prepares for starvation that may come at any time by maintaining within the genome the genes required for cell differentiation even during the unicellular phase, and continues to replicate them. There is a burden from the energy requirements for maintaining and operating so many genes, but this is the form arrived at after a process of trial and error for creating descendants and avoiding the extermination of the group.
     Meanwhile, some slime molds do not differentiate cell function even when the cells aggregate. These are called Acytostelium, and they branched off before Dictyostelium discoideum appeared. The cells become spores to survive in conditions of starvation. If we could compare the functions of the gene varieties in both types to identify the mechanism for the differentiation of cell function, we might understand the multicellularization process.

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