Metabolic fate of guanosine in higher plants |
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Authors: | Hiroshi Ashihara Yoko Takasawa Takeo Suzuki |
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Affiliation: | Dept of Biology, Faculty of Science, Ochanomizu Univ., Otsuka, Tokyo, 112, Japan;;Dept of Applied Biology, Faculty of Textile Science, Kyoto Inst. of Technology, Matsugasaki, Kyoto, 606, Japan. |
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Abstract: | The aim of the present study was to investigate the metabolic fate of guanine nucleotides in higher plants. The rate of uptake of [8-14C]guanosine by suspension-cultured Catharanthus roseus cells was more than 20 times higher than that of [8-14C]guanine. The rate of uptake of [8-14C]guanosine increased with the age of the culture. Pulse-chase experiments with [8-14C]guanosine revealed that some of the guanosine that had been taken up by the cells was converted to guanine nucleotides and incorporated into nucleic acids. A significant amount of [8-14C]guanosine was degraded directly to xanthine, allantoin and allantoic acid, with the generation of 14CO2 as the final product. The rate of salvage of [8-14C]guanosine for the synthesis of nucleic acids was highest in young cells, while the rate of degradation increased with the age of the cells. In segments of roots from Vigna mungo seedlings, nearly 50% of the [8-14C]guanosine that had been absorbed over the course of 15 min was recovered in guanine nucleotides. A significant amount of the radioactivity in nucleotides became associated with nucleic acids and ureides during ‘chase’ periods. In segments of young leaves of Camellia sinensis, [8-14C]guanosine was initially incorporated into guanine nucleotides, nucleic acids, theobromine and ureides, and the radioactivity in these compounds was transferred to caffeine and CO2 during a 24-h incubation. Our results suggest that guanosine is an intermediate in the catabolism of guanine nucleotides and that it is re-utilised for nucleotide synthesis by ‘salvage’ reactions. Guanosine was catabolised by the conventional degradation pathway via xanthine and allantoin. In some plants, guanosine is also utilised for the formation of ureide or the biosynthesis of caffeine. |
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Keywords: | Caffeine Camellia sinensis Catharanthus roseus guanine nucleotide guanosine metabolism Vigna mungo |
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