豌豆中核糖体与类囊体的关联：缺氧的影响。

Ribosome-thylakoid association in peas: influence of anoxia.

作者信息

Alscher-Herman R, Jagendorf A T, Grumet R

机构信息

Division of Biological Sciences, Cornell University, Ithaca, New York 14853.

出版信息

Plant Physiol. 1979 Aug;64(2):232-5. doi: 10.1104/pp.64.2.232.

DOI:10.1104/pp.64.2.232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC543061/

Abstract

Isolated pea chloroplast thylakoids ordinarily have ribosomes attached which survive sequential washes. Extensive in vivo loss of these thylakoidbound ribosomes occurred if the pea plants were placed in the dark without O(2) for 2 or more hours. This loss was indicated from measurements of both the total thylakoid-bound RNA levels, and the capacity for amino acid incorporation into proteins on the addition of soluble enzymes for protein synthesis. Stroma ribosome profiles lost any indication of polysome structure due to the same anoxic treatment in vivo. The return of ribosomes to the thylakoids when plants were placed in the light in air occurred over an 8-hour time course. This return was prevented by lincomycin, spectinomycin, and chloramphenicol, indicating a requirement for protein synthesis steps in the stroma at some point in the reassociation process.

摘要

分离出的豌豆叶绿体类囊体通常附着有核糖体，这些核糖体在连续洗涤后仍能存活。如果将豌豆植株置于无氧气的黑暗环境中2小时或更长时间，这些类囊体结合的核糖体在体内会大量损失。这种损失通过测量类囊体结合的总RNA水平以及在添加蛋白质合成可溶性酶后氨基酸掺入蛋白质的能力得以体现。由于体内相同的缺氧处理，基质核糖体图谱失去了多核糖体结构的任何迹象。当植株置于空气中光照下时，核糖体在8小时的时间进程中重新回到类囊体上。林可霉素、壮观霉素和氯霉素可阻止这种核糖体的回归，这表明在重新结合过程中的某个阶段，基质中的蛋白质合成步骤是必需的。

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本文引用的文献

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Plant Physiol. 1949 Jan;24(1):1-15. doi: 10.1104/pp.24.1.1.

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Dissocation and reassembly of polyribosomes in relation to protein synthesis in the soybean root.大豆根中多核糖体的解离与重新组装及其与蛋白质合成的关系

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