高赖氨酸玉米：使之成为可能的关键发现。

High-lysine maize: the key discoveries that have made it possible.

机构信息

Departamento de Genética, Universidade de São Paulo, Piracicaba, Brazil.

出版信息

Amino Acids. 2010 Oct;39(4):979-89. doi: 10.1007/s00726-010-0576-5. Epub 2010 Apr 7.

PMID:20373119

Abstract

Forty-five years ago, a paper published by Mertz et al. (Science 145:279-280, 1964) initiated a revolution in the history of plant protein quality and affected dramatically the study of cereal crop storage proteins. The observation of the high lysine content of the endosperm of the opaque-2 (o2) maize mutant was a key factor in bringing about a new concept in the production of cereal seeds with a high nutritional value. It has been a long and very interesting road with astonishing results over these 45 years. We are now probably about to see the release of commercially engineered high-lysine maize lines. We have decided to pinpoint some key contributions to the science behind high-lysine plants and concentrated on the research done on maize, which is possibly the most complete and simple example to illustrate the advances achieved. However, studies on other plant species such as barley and model species such as tobacco are totally relevant and will be briefly addressed.

摘要

四⼗五年前，Mertz 等⼈发表的⼀篇论⽂（Science 145:279-280, 1964）开启了植物蛋⽩质质量研究的新纪元，并极⼤地影响了对⾕物贮藏蛋⽩质的研究。不透明-2（o2）⽟⽶突变体胚乳中赖氨酸含量⾼的观察结果是产⽣具有⾼营养价值的⾕物种⼦的新概念的关键因素。在过去的 45 年中，这是⼀条漫⻓⽽⼜充满趣味的道路，取得了令⼈惊叹的成果。我们现在可能即将看到具有商业⽣物⼯程的⾼赖氨酸⽟⽶品系的推出。我们决定重点介绍⾼赖氨酸植物背后的⼀些关键科学贡献，并集中研究⽟⽶，因为它可能是最完整和最简单的例⼦，可以说明所取得的进展。然⽽，对其他植物物种（如⼤麦）和模式物种（如烟草）的研究也是完全相关的，并将简要提及。

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高赖氨酸玉米：使之成为可能的关键发现。

High-lysine maize: the key discoveries that have made it possible.

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