酵母中硫胺素生物合成的观察
Observations on the biosynthesis of thiamine in yeast.
作者信息
Johnson D B, Howells D J, Goodwin T W
出版信息
Biochem J. 1966 Jan;98(1):30-7. doi: 10.1042/bj0980030.
Abstract
- Methods are described for the isolation of radioactively pure thiamine from yeast and its degradation on a small scale to its cyclic components. 2. A degradation of the pyrimidine ring and a thin-layer method for the separation of thiamine, its derivatives and pyrimidine and thiazole residues are described. 3. [(14)C]Formate is more effectively incorporated into the pyrimidine residue than into the thiazole residue, whereas the reverse is true with l-[Me-(14)C]methionine. 4. Experiments with [Me-(14)C,(35)S]methionine demonstrate that methionine provides an intact unit for the biosynthesis of the thiazole ring. 5. [6-(14)C]Orotic acid is insignificantly incorporated into the pyrimidine residue of thiamine. 6. Experiments with [1-(14)C]- and [2-(14)C]-acetate indicate that it is incorporated as a unit into the thiazole residue, but that only C-2 is incorporated into the pyrimidine residue. 7. l-[U-(14)C]Alanine is also effectively incorporated into the thiazole residue. 8. These results are discussed in relation to possible pathways of biosynthesis of the two ring components of the thiamine molecule.
摘要
- 描述了从酵母中分离放射性纯硫胺素及其小规模降解为其环状成分的方法。2. 描述了嘧啶环的降解以及用于分离硫胺素、其衍生物以及嘧啶和噻唑残基的薄层方法。3. [(14)C]甲酸更有效地掺入嘧啶残基而非噻唑残基,而l-[甲基-(14)C]甲硫氨酸的情况则相反。4. 用[甲基-(14)C,(35)S]甲硫氨酸进行的实验表明,甲硫氨酸为噻唑环的生物合成提供了一个完整单元。5. [6-(14)C]乳清酸极少掺入硫胺素的嘧啶残基。6. 用[1-(14)C]-和[2-(14)C]-乙酸进行的实验表明,它作为一个单元掺入噻唑残基,但只有C-2掺入嘧啶残基。7. l-[U-(14)C]丙氨酸也有效地掺入噻唑残基。8. 结合硫胺素分子两个环成分可能的生物合成途径对这些结果进行了讨论。
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引用本文的文献
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