茶树(Camellia sinensis L.)中咖啡因生物合成的进一步研究。茶叶提取物对转移核糖核酸的甲基化作用。
Further investigation of the biosynthesis of caffeine in tea plants (Camellia sinensis L.). Methylation of transfer ribonucleic acid by tea leaf extracts.
作者信息
Suzuki T, Takahashi E
出版信息
Biochem J. 1976 Nov 15;160(2):181-4. doi: 10.1042/bj1600181.
Abstract
- The tRNA methyltransferase activity in vitro of leaves, cotyledons and roots of 85-day-old tea seedlings was studied. 2. The activity of extracts prepared from tea leaves with Polycar AT (insoluble polyvinylpyrrolidine) had optimum pH7.7 and was greatly influenced by thiol compounds, but only slightly by metal ions and ammonium acetate. 3. The activities of extracts, expressed per mg of protein, were as follows: roots greater than leaves greater than cotyledons. The only methylated base isolated after incubation with these preparations was 1-methyladenine. 4. The results did not support the view of involvement of methylation of nucleic acids in caffeine biosynthesis in tea plants. In contrast, it is suggested that theophylline is synthesized from the specific methylated precursor in nucleic acids, namely 1-methyladenylic acid, via 1-methylxanthine.
摘要
- 研究了85日龄茶苗叶片、子叶和根的tRNA甲基转移酶体外活性。2. 用聚碳酸酯AT(不溶性聚乙烯吡咯烷酮)从茶叶中制备的提取物的活性在pH7.7时最佳,并且受到硫醇化合物的极大影响,但仅受到金属离子和醋酸铵的轻微影响。3. 以每毫克蛋白质表示的提取物活性如下:根>叶>子叶。与这些制剂孵育后分离出的唯一甲基化碱基是1-甲基腺嘌呤。4. 结果不支持核酸甲基化参与茶树咖啡因生物合成的观点。相反,有人提出,茶碱是由核酸中特定的甲基化前体,即1-甲基腺苷酸,通过1-甲基黄嘌呤合成的。
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