麦角的生理学研究:关于色氨酸诱导生物碱合成及其受磷酸盐抑制的进一步研究。
Physiological studies on ergot: further studies on the induction of alkaloid synthesis by tryptophan and its inhibition by phosphate.
作者信息
Robbers J E, Robertson L W, Hornemann K M, Jindra A, Floss H G
出版信息
J Bacteriol. 1972 Nov;112(2):791-6. doi: 10.1128/jb.112.2.791-796.1972.
Abstract
The failure of l-leucine to stimulate ergot alkaloid production in a synthetic medium indicates that the previously observed stimulation by tryptophan and tryptophan analogues does not merely represent a nutritional effect. Tryptophan, but not mevalonate or 5-methyltryptophan, is able to overcome the inhibition of alkaloid synthesis by high levels of inorganic phosphate. Therefore, high phosphate levels seem to limit the synthesis of tryptophan; they may, in addition, prevent induction of alkaloid synthesis by preventing accumulation of tryptophan. Experiments which indicate a 2- to 3-fold temporary increase of intracellular free tryptophan and a 20- to 25-fold increase of tryptophan synthetase activity during the transition period between growth and alkaloid production phase are in agreement with the previously postulated induction of alkaloid synthesis by tryptophan. The latter experiments also indicate 4- to 6-fold repression of this enzyme by tryptophan.
摘要
在合成培养基中,L-亮氨酸未能刺激麦角生物碱的产生,这表明先前观察到的色氨酸和色氨酸类似物的刺激作用不仅仅是一种营养效应。色氨酸能够克服高浓度无机磷酸盐对生物碱合成的抑制作用,而甲羟戊酸或5-甲基色氨酸则不能。因此,高磷酸盐水平似乎会限制色氨酸的合成;此外,它们可能通过阻止色氨酸的积累来防止生物碱合成的诱导。实验表明,在生长和生物碱产生阶段的过渡期内,细胞内游离色氨酸会暂时增加2至3倍,色氨酸合成酶活性会增加20至25倍,这与先前推测的色氨酸诱导生物碱合成的观点一致。后一组实验还表明,色氨酸会使这种酶的活性受到4至6倍的抑制。
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[ON THE EFFECT OF TRYPTOPHAN AND ANALOGOUS COMPOUNDS ON THE BIOSYNTHESIS OF CLAVIN ALKALOIDS IN SAPROPHYTIC CULTURE].[色氨酸及类似化合物对腐生培养中棒曲霉素生物碱生物合成的影响]
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A modified photometric ninhydrin method for the analysis of amino and imino acids.一种用于分析氨基酸和亚氨基酸的改良茚三酮光度法。
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[Relations between protein synthesis and formation of alkaloids in Claviceps in saprophytic culture].[腐生培养中麦角菌蛋白质合成与生物碱形成之间的关系]
Arch Mikrobiol. 1967;58(1):77-91.
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