Transport of Purine and Pyrimidine Bases and Nucleosides from Endosperm to Cotyledons in Germinating Castor Bean Seedlings

During germination and early growth of castor bean (Ricinus communis), all cellular constituents of the endosperm are eventually transferred to the growing embryo. The present results bear on the transport of breakdown products of nucleic acids. The total content of nucleic acids and nucleotides declines rapidly between day 4 and day 8 of seedling development. Concomitant with this decline, a secretion of adenosine, guanosine, and adenine from excised endosperms into the incubation medium takes place, accompanying a much more extensive release of sucrose and amino acids. Release of nucleotides could not be detected. The rates of release were linear for at least 5 hours for all compounds measured, indicating that they were liberated due to a coordinated metabolism. Uptake studies with cotyledons removed from the seedling showed that these have the ability to absorb all the substances released from the endosperm. Besides sucrose and amino acids, both nucleosides and free purine and pyrimidine bases were taken up by the cotyledons with high efficiency. AMP was also transported whereas ATP was not. Kinetic analyses were carried out to estimate the maximal uptake capacities of the cotyledons. Rates of uptake were linear for at least 1 to 2 hours and saturation kinetics were observed for all substances investigated. It is concluded that nucleosides can serve best as transport metabolites of nucleic acids, inasmuch as they are taken up by the cotyledons with the highest efficiency, the V(max)/K(m) ratios being considerably higher than those found for free purine and pyrimidine bases. For both adenosine and adenine transport, the V(max) was about 2 micromoles per hour per gram fresh weight, and the K(m) values were 0.12 and 0.37 millimolar, respectively. The rates of metabolite release from the endosperm and the capacity of the absorption system in the cotyledons are shown to account for the observed rates of disappearance of nucleic acids from the endosperm and efficient transport to the growing embryo.