Nuclear and cytoplasmic DNA synthesis in cotton embryos: a correlated light and electron microscope autoradiographic study

Summary To investigate the possibility, implied by an earlier report, that large amounts of degradable DNA are probably present in the cytoplasm of young cotton embryos, an investigation was undertaken to establish the distribution, amount and metabolic stability of DNA in cotton embryos. Several sensitive cytochemical tests failed to detect any but small amounts of extranuclear DNA. Quantitative determination of the nucleic acid content of embryos during embryogenesis showed that the amounts of DNA and RNA remained fairly constant during embryogenesis, with a ratio of RNA to DNA of about 3.5 to 1. Quantitative autoradiography at both the light and electron microscope levels of sections from embryos pulse-labeled with ³H-thymidine showed that the grain density over the nucleus and cytoplasm did not change during a seven-hour period after labeling, nor did the distribution of label in the cytoplasm. Virtually all incorporation was eliminated by the inclusion of iododeoxy-uridine in the medium. Almost all of the nuclear label and at least 90% of the cytoplasmic label after ³H-thymidine incorporation was eliminated by deoxyribonuclease. It was concluded that there are no unusual features related to DNA distribution or metabolism in cotton embryo; i.e., that only small amounts of DNA are present in the cytoplasm and that all of the DNA is metabolically stable.Approximately 40% of the cytoplasmic grains after ³H-thymidine labeling were not associated with either plastids or mitochondria (i.e., were more than 0.1 micron distant). No fully satisfactory explanation for such an apparently high figure could be given.This work was supported by a Public Health Service fellowship 5-F2-GM-22,031-02 from the National Institute of General Medical Sciences, by NSF grant GB 3460, by NIH grant 5-R01-Ca0356-10 and by Miller Institute for Basic Science.