INCORPORATION OF H3-THYMIDINE IN LEAF NUCLEI OF XANTHIUM PENNSYLVANICUM

The basic kinetics and the pattern of incorporation of H³-thymidine was studied in the leaf lamina of Xanthium pennsylvanicum. A method of foliar absorption was used to incorporate the radioisotope into leaf nuclei. The autoradiographic techniques employed provided data on the amount of the isotope incorporated. It was determined that 10 μc/ml (sp. act. 6.7 c/mmole) of H³-thymidine with 1–8 hr of isotopic growth and 4 hr of postisotopic growth gave the most satisfactory results. The percent of labelled nuclei and the number of grains per nucleus were presented as functions of isotopic and postisotopic growth periods. Distribution of grains in the nuclei approximated the Poisson distribution at 1 hr of isotopic growth. Increased time of isotopic growth changed the pattern of grain distribution. No deleterious effects were observed using an 8-hr period of isotopic growth, but prolonged incubation time significantly decreased the proportion of mitotic figures in the lamina. The amount of incorporation of the DNA precursor expressed as percent of labelled nuclei was linear to about 16 hr of isotopic growth and thereafter decreased gradually. As indicated by the average number of grains per nucleus, H³-thymidine incorporation increased to about 16 hr, and soon after reached a saturation level. The percent of labelled nuclei and the number of grains per nucleus decreased as a function of the postisotopic growth period. However, they were significantly greater in the lamina near the vein than in the lamina region at some distance from the vein. The radioactive precursor was initially absorbed by the cells of the lamina and was subsequently translocated into the vascular system. There it was circulated and made available to the dividing cells near veins of the lamina. This region may be a metabolically distinct part of the lamina with significantly higher rates of incorporation and mitotic turnover.