葡萄糖可诱导小球藻中的两种氨基酸转运系统。

Glucose induces two amino acid transport systems in Chlorella.

作者信息

Cho B H, Sauer N, Komor E, Tanner W

出版信息

Proc Natl Acad Sci U S A. 1981 Jun;78(6):3591-4. doi: 10.1073/pnas.78.6.3591.

DOI:10.1073/pnas.78.6.3591

PMID:6943560

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC319616/

Abstract

In autotrophically grown Chlorella cells, glucose induces a hexose transport system but, at the same time, the synthesis of two amino acid transport systems is also induced. Thus, the rates of uptake of glycine, L-alanine, L-proline, and L-serine, all of which compete with each other for entry into the cells, increase more than 100-fold when the algae are pretreated with glucose. The rates of L-arginine and L-lysine uptake increase by a factor of 25 to 50. The accumulation of proline and arginine within the cells amounts to 200- and 600-fold, respectively. Glucose does not cause the positive effect on amino acid uptake by serving as metabolic substrate because the nonmetabolizable 6-deoxyglucose also acts as inducer. Cycloheximide prevents the induction. The induced transport system for the four neutral amino acids has a turnover with a half-life of 7 hr, which corresponds closely to the half-life of the hexose transport system. The transport system for the basic amino acids, on the other hand, disappears with a half-life of 25 hr.

摘要

在自养生长的小球藻细胞中，葡萄糖可诱导一种己糖转运系统，但与此同时，两种氨基酸转运系统的合成也会被诱导。因此，甘氨酸、L-丙氨酸、L-脯氨酸和L-丝氨酸的摄取速率，这些氨基酸在进入细胞时相互竞争，当藻类用葡萄糖预处理时，其摄取速率增加超过100倍。L-精氨酸和L-赖氨酸的摄取速率增加25至50倍。细胞内脯氨酸和精氨酸的积累分别达到200倍和600倍。葡萄糖并非通过作为代谢底物对氨基酸摄取产生积极影响，因为不可代谢的6-脱氧葡萄糖也可作为诱导剂。放线菌酮可阻止这种诱导。诱导的四种中性氨基酸转运系统具有周转率，半衰期为7小时，这与己糖转运系统的半衰期非常接近。另一方面，碱性氨基酸转运系统以25小时的半衰期消失。

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本文引用的文献

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