The Role of Cytokinin in the Regulation of Growth, DNA Synthesis and Cell Proliferation in Cultured Soybean Tissues ( Glycine max var. Biloxi )

Changes in protein content and cell proliferative activity were followed after a cytokinin‐requiring strain of cultured Glycine max tissue was transferred to freshly prepared media which either contained or lacked cytokinin. Cell numbers doubled within the first two days after transfer, both in the presence and absence of cytokinin. However, after the second day no further increase in cell number was observed in the absence of cytokinin, while cell numbers continued to increase logarithmically in the presence of cytokinin. The size of the cell population attained after the first six days of growth was a function of the cytokinin concentration of the culture medium. However, the amount of 3 H‐thymidine incorporated into nuclear DNA bore no relation to the rate of cell proliferation. Tissues cultured on medium lacking cytokinin incorporated the greatest amount of 3 H‐thymidine per microgram of DNA, while the actively dividing tissues incorporated somewhat less. Using autoradiography and isopycnic CsCl gradient centrifugation, it was shown that the radioactivity derived from 3 H‐thymidine was associated with nuclear DNA in the cytokinin‐deprived cells. Biochemical measurements demonstrated that cells cultured for six days without cytokinin had approximately twice the DNA content of the actively proliferating cells cultured on cytokinin‐containing medium. Furthermore, in autoradiographs labeled cells were found to average nearly three times as many silver grains per nucleus in tissues cultured without cytokinin as the cytokinin‐grown tissues. This suggests that the 3 H‐thymidine incorporation in the non‐proliferating soybean cells results from nuclear DNA synthesis and that some of the cells became polypoid in the absence of cytokinin. These findings would be consistent with the idea that cytokinin acts as a specific trigger for cytokinesis.