在表达突变型大肠杆菌天冬氨酸激酶的转基因烟草植物中天冬氨酸的过表达。

Threonine Overproduction in Transgenic Tobacco Plants Expressing a Mutant Desensitized Aspartate Kinase of Escherichia coli.

机构信息

Department of Plant Genetics, The Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Plant Physiol. 1992 Nov;100(3):1157-63. doi: 10.1104/pp.100.3.1157.

DOI:10.1104/pp.100.3.1157

PMID:16653099

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1075760/

Abstract

In higher plants, the synthesis of the essential amino acid threonine is regulated primarily by the sensitivity of the first enzyme in its biosynthetic pathway, aspartate kinase, to feedback inhibition by threonine and lysine. We aimed to study the potential of increasing threonine accumulation in plants by means of genetic engineering. This was addressed by the expression of a mutant, desensitized aspartate kinase derived from Escherichia coli either in the cytoplasm or in the chloroplasts of transgenic tobacco (Nicotiana Tabacum cv Samsun NN) plants. Both types of transgenic plants exhibited a significant overproduction of free threonine. However, threonine accumulation was higher in plants expressing the bacterial enzyme in the chloroplast, indicating that compartmentalization of aspartate kinase within this organelle was important, although not essential. Threonine overproduction in leaves was positively correlated with the level of the desensitized enzyme. Transgenic plants expressing the highest leaf aspartate kinase activity also exhibited a slight increase in the levels of free lysine and isoleucine, both of which share a common biosynthetic pathway with threonine, but showed no significant change in the level of other free amino acids. The present study proposes a new molecular biological approach to increase the limiting content of threonine in higher plants.

摘要

在高等植物中，必需氨基酸苏氨酸的合成主要受其生物合成途径中第一个酶——天冬氨酸激酶对苏氨酸和赖氨酸反馈抑制的敏感性调节。我们旨在通过基因工程手段提高植物中天冬氨酸激酶的活力来增加苏氨酸的积累。为此，我们通过在细胞质或叶绿体中表达来源于大肠杆菌的突变型、脱敏天冬氨酸激酶，来实现这一目标。这两种类型的转基因烟草（Nicotiana tabacum cv Samsun NN）植株均表现出游离苏氨酸的显著过量产生。然而，在叶绿体中表达细菌酶的植物中天冬氨酸激酶的积累更高，这表明尽管不是必需的，但将天冬氨酸激酶分隔在该细胞器中是很重要的。叶片中天冬氨酸激酶的过量产生与脱敏酶的水平呈正相关。表达最高叶中天冬氨酸激酶活性的转基因植株还表现出游离赖氨酸和异亮氨酸水平的轻微增加，这两种氨基酸都与苏氨酸具有共同的生物合成途径，但其他游离氨基酸的水平没有明显变化。本研究提出了一种增加高等植物中天冬氨酸激酶活力的新的分子生物学方法，从而提高苏氨酸的含量。

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