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植物中的蛋白质修复L-异天冬氨酰甲基转移酶。老化大麦种子中该酶的系统发育分布及底物蛋白的积累

Protein repair L-isoaspartyl methyltransferase in plants. Phylogenetic distribution and the accumulation of substrate proteins in aged barley seeds.

作者信息

Mudgett M B, Lowenson J D, Clarke S

机构信息

Department of Chemistry and Biochemistry, University of California, Los Angeles 90095-1569, USA.

出版信息

Plant Physiol. 1997 Dec;115(4):1481-9. doi: 10.1104/pp.115.4.1481.

DOI:10.1104/pp.115.4.1481
PMID:9414558
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC158613/
Abstract

Protein L-isoaspartate (D-aspartate) O-methyltransferases (MTs; EC 2.1.1.77) can initiate the conversion of detrimental L-isoaspartyl residues in spontaneously damaged proteins to normal L-aspartyl residues. We detected this enzyme in 45 species from 23 families representing most of the divisions of the plant kingdom. MT activity is often localized in seeds, suggesting that it has a role in their maturation, quiescence, and germination. The relationship among MT activity, the accumulation of abnormal protein L-isoaspartyl residues, and seed viability was explored in barley (Hordeum vulgare cultivar Himalaya) seeds, which contain high levels of MT. Natural aging of barley seeds for 17 years resulted in a significant reduction in MT activity and in seed viability, coupled with increased levels of "unrepaired" L-isoaspartyl residues. In seeds heated to accelerate aging, we found no reduction of MT activity, but we did observe decreased seed viability and the accumulation of isoaspartyl residues. Among populations of accelerated aged seed, those possessing the highest levels of L-isoaspartyl-containing proteins had the lowest germination percentages. These results suggest that the MT present in seeds cannot efficiently repair all spontaneously damaged proteins containing altered aspartyl residues, and their accumulation during aging may contribute to the loss of seed viability.

摘要

蛋白质L-异天冬氨酸(D-天冬氨酸)O-甲基转移酶(MTs;EC 2.1.1.77)能够将自发受损蛋白质中有害的L-异天冬氨酰残基转化为正常的L-天冬氨酰残基。我们在代表植物界大部分分类的23个科的45个物种中检测到了这种酶。MT活性通常定位于种子中,这表明它在种子的成熟、休眠和萌发过程中发挥作用。在含有高水平MT的大麦(Hordeum vulgare cultivar Himalaya)种子中,研究了MT活性、异常蛋白质L-异天冬氨酰残基的积累与种子活力之间的关系。大麦种子自然老化17年导致MT活性和种子活力显著降低,同时“未修复”的L-异天冬氨酰残基水平增加。在加热以加速老化的种子中,我们发现MT活性没有降低,但确实观察到种子活力下降和异天冬氨酰残基的积累。在加速老化种子群体中,含有最高水平L-异天冬氨酰蛋白质的种子发芽率最低。这些结果表明,种子中存在的MT不能有效地修复所有含有改变的天冬氨酰残基的自发受损蛋白质,并且它们在老化过程中的积累可能导致种子活力丧失。

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