Studying the Relationship between Acyl-CoA-Binding Protein 2 and Lysophospholipase 2 in Arabidopsis thaliana and Their Importance in Recycling of Cadmium

International Journal of Scientific Research in Environmental Sciences Pub Date : 2013-12-01 DOI:10.12983/IJSRES-2013-P351-356

S. Gavanji, Mohsen Doostmohammadi, A. Mojiri, A. Zand

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引用次数: 2

Abstract

A major environmental concern due to dispersal of industrial and urban wastes generated by human activities is the contamination of soil. A wide range of inorganic and organic compounds cause contamination, these include heavy metals, combustible and putriscible substances, hazardous wastes, explosives and petroleum products. Major component of inorganic contaminates are heavy metals .Phytoremediation is a group of technologies that used by plants to remove, degrade or immobilize environmental toxins. This technology largely focused on the use of plants for accelerating degradation of organic contaminants. But in addition to use of plant for soil remediation, hyper accumulator plants can be used for recycling of metals from soil. Hyper accumulator plant express special proteins that help them to tolerate the high concentration of metals.in this experiment we discussed the relationship between acyl-CoA-binding protein 2 and lysophospholipase 2 and showed why this two proteins work together.

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拟南芥酰基辅酶a结合蛋白2与溶血磷脂酶2的关系及其在镉循环利用中的意义

由于人类活动产生的工业和城市废物的扩散，一个主要的环境问题是土壤污染。广泛的无机和有机化合物会造成污染，其中包括重金属、可燃和易腐烂物质、危险废物、爆炸物和石油产品。无机污染物的主要成分是重金属。植物修复是植物用来去除、降解或固定环境毒素的一组技术。该技术主要侧重于利用植物加速有机污染物的降解。但除了利用植物进行土壤修复外，超蓄能器植物还可用于从土壤中回收金属。超积累植物表达特殊的蛋白质，帮助它们耐受高浓度的金属。在这个实验中，我们讨论了酰基辅酶a结合蛋白2和溶血磷脂酶2之间的关系，并说明了为什么这两个蛋白一起工作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Scientific Research in Environmental Sciences

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