High?￠????lysine corn produced by the combination of enhanced lysine biosynthesis and reduced zein accumulation

Wayne E. Brown; Shihshieh Huang; Whitney R. Adams; Cheryl A. Florida; Alessandra Frizzi; Michael H. Luethy; Robert L. D’Ordine; Diane E. Kruger

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High?￠????lysine corn produced by the combination of enhanced lysine biosynthesis and reduced zein accumulation

机译：高赖氨酸玉米通过增强赖氨酸的生物合成和减少玉米蛋白的积累而产生

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Corn is one of the major crops in the world, but its low lysine content is often problematic for animal consumption. While exogenous lysine supplementation is still the most common solution for today's feed corn, high?￠????lysine corn has been developed through genetic research and biotechnology. Reducing the lysine?￠????poor seed storage proteins, zeins, or expressing a deregulated lysine biosynthetic enzyme, CordapA, has shown increased total lysine or free lysine content in the grains of modified corn plants, respectively. Here, by combining these two approaches through genetic crosses, the total lysine content has more than doubled in F1 progeny. We also observe a synergy between the transgenic zein reduction and the enhanced lysine biosynthesis by CordapA expression. The zein reduction plants are found to accumulate higher levels of aspartate, asparagine and glutamate, and therefore, provide excess precursors for the enhanced lysine biosynthesis.

机译：玉米是世界上主要的农作物之一，但是赖氨酸含量低对动物的食用常常造成问题。虽然外源赖氨酸补充仍然是当今饲料玉米的最常见解决方案，但高赖氨酸玉米是通过基因研究和生物技术开发的。减少赖氨酸的低贮存种子蛋白，玉米醇溶蛋白，或表达失调的赖氨酸生物合成酶，CordapA，分别表明改性玉米植株的谷物中总赖氨酸或游离赖氨酸含量增加。在这里，通过遗传杂交将这两种方法结合在一起，F1后代的总赖氨酸含量增加了一倍以上。我们还观察到转基因玉米醇溶蛋白减少和CordapA表达增强的赖氨酸生物合成之间的协同作用。发现玉米醇溶蛋白还原植物积累更高水平的天冬氨酸，天冬酰胺和谷氨酸盐，因此提供了过量的前体以增强赖氨酸的生物合成。

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《Plant Biotechnology Journal》 |2005年第6期|共页
作者
Wayne E. Brown; Shihshieh Huang; Whitney R. Adams; Cheryl A. Florida; Alessandra Frizzi; Michael H. Luethy; Robert L. D’Ordine; Diane E. Kruger;
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1. High-lysine corn produced by the combination of enhanced lysine biosynthesis and reduced zein accumulation. [J] . Huang S S, Kruger D E, Frizzi A, Plant Biotechnology Journal . 2005,第6期

机译：通过增强赖氨酸生物合成和降低的玉米醇溶蛋白积累产生的高赖氨酸玉米产生。
2. Increased polyamine biosynthesis enhances stress tolerance by preventing the accumulation of reactive oxygen species: T-DNA mutational analysis of Oryza sativa lysine decarboxylase-like protein 1. [J] . Su Jin Jang, Soo Jin Wi, Yoo Jin Choi, Molecules and cells . 2012,第3期

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3. Increased Polyamine Biosynthesis Enhances Stress Tolerance by Preventing the Accumulation of Reactive Oxygen Species: T-DNA Mutational Analysis of Oryza sativa Lysine Decarboxylase-like Protein 1 [J] . Su Jin Jang, Soo Jin Wi, Yoo Jin Choi, Molecules and cells . 2012,第3期

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4. Lysine Acetylome in Streptomyces roseosporus Reveals the Roles of Lysine Acetylation in Regulating Biosynthesis of Secondary Metabolites [C] . Guojian Liao, Longxiang Xie, Xiaojun Peng, ASMS Conference on Mass Spectrometry and Allied Topics . 2014

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5. Development and property enhancement of bi-layer edible films produced from corn zein and methylcellulose. [D] . Park, Jang-Woo. 1995

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6. Increased Polyamine Biosynthesis Enhances Stress Tolerance by Preventing the Accumulation of Reactive Oxygen Species: T-DNA Mutational Analysis of Oryza sativa Lysine Decarboxylase-like Protein 1 [O] . Su Jin Jang, Soo Jin Wi, Yoo Jin Choi, 2012

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High?￠????lysine corn produced by the combination of enhanced lysine biosynthesis and reduced zein accumulation

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