豌豆叶绿体提取物中支链淀粉的降解。

Amylopectin degradation in pea chloroplast extracts.

机构信息

Department of Biochemistry and Biophysics, University of California, Davis, California 95616.

出版信息

Plant Physiol. 1978 Feb;61(2):218-20. doi: 10.1104/pp.61.2.218.

DOI:10.1104/pp.61.2.218

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1091835/

Abstract

Phosphorolysis rather than phosphorylation of amylolysis products was found to be the major pathway of sugar phosphate formation from amylopectin by pea (Pisum sativum L.) chloroplast stromal proteins. The K(m) for inorganic phosphate incorporation was 2.5 mm, and ATP did not stimulate amylopectin-dependent phosphate incorporation. Arsenate (10 mm) inhibited phosphate incorporation into glucose monophosphates up to 46% and phosphoglucomutase activity 96%, resulting in glucose 1-phosphate accumulation as a product of amylopectin degradation. The intracellular distribution of enzymes of starch utilization was determined. Phosphorylase, phosphoglucomutase, and hexokinase were found in the chloroplast and cytoplasm, while beta-amylase was restricted to the cytoplasm. Maltase was not detectable; maltose phosphorylase was active in the chloroplast.

摘要

研究发现，豌豆叶绿体基质蛋白将支链淀粉分解产物进行磷酸解，而非磷酸化，是糖磷酸形成的主要途径。对于无机磷酸盐的掺入，Km 值为 2.5 mM，并且 ATP 不能刺激支链淀粉依赖性磷酸盐的掺入。砷酸盐（10 mM）抑制磷酸掺入葡萄糖一磷酸中，抑制率高达 46%，磷酸葡萄糖变位酶活性抑制 96%，导致葡萄糖 1-磷酸作为支链淀粉降解产物的积累。淀粉利用酶的细胞内分布也被测定。发现磷酸化酶、磷酸葡萄糖变位酶和己糖激酶存在于叶绿体和细胞质中，而β-淀粉酶仅存在于细胞质中。麦芽糖酶检测不到；麦芽糖磷酸化酶在叶绿体中具有活性。

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本文引用的文献

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Role of orthophosphate and other factors in the regulation of starch formation in leaves and isolated chloroplasts.正磷酸盐和其他因素在叶片和离体叶绿体淀粉形成中的作用。

Plant Physiol. 1977 Jun;59(6):1146-55. doi: 10.1104/pp.59.6.1146.

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Starch degradation in isolated spinach chloroplasts.离体菠菜叶绿体中淀粉的降解。

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Kinetic mechanism of potato phosphorylase.马铃薯磷酸化酶的动力学机制

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The hydrolysis of maltodextrins by a -amylase isolated from leaves of Vicia faba.从蚕豆叶片中分离出的α-淀粉酶对麦芽糊精的水解作用。

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Intracellular localization of enzymes in leaves and chloroplast membrane permeability to compounds involved in amino acid syntheses.叶片中酶的细胞内定位以及叶绿体膜对参与氨基酸合成的化合物的通透性。

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