Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement

Ray Bressan; Hans Bohnert; Jian-Kang Zhu

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Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement

机译：非生物胁迫耐受性：从模型生物的基因发现到作物改良

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Productive and sustainable agriculture necessitates growing plants in sub-optimal environments with less input of precious resources such as fresh water. For a better understanding and rapid improvement of abiotic stress tolerance, it is important to link physiological and biochemical work to molecular studies in genetically tractable model organisms. With the use of several technologies for the discovery of stress tolerance genes and their appropriate alleles, transgenic approaches to improving stress tolerance in crops remarkably parallels breeding principles with a greatly expanded germplasm base and will succeed eventually.

机译：生产性和可持续性农业需要在次优环境中种植植物，而所需的宝贵资源（例如淡水）的投入则更少。为了更好地理解和快速改善非生物胁迫的耐受性，重要的是将生理和生化工作与遗传可治疗模型生物的分子研究联系起来。通过使用多种技术来发现胁迫耐性基因及其合适的等位基因，提高作物抗逆性的转基因方法与育种原理与广泛扩展的种质基础非常相似，并将最终获得成功。

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《Molecular Plant》 |2009年第1期|p.1-2|共2页
作者
Ray Bressan; Hans Bohnert; Jian-Kang Zhu;
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Purdue University, Department of Horticulture and Landscape Architecture, 625 Agriculture Mall Drive, West Lafayette, IN 47907-2010, USA;

University of Illinois, Department of Plant Biology, ERML 196, 1201 W. Gregory Dr., Urbana, IL 61801, USA;

University of California, Botany and Plant Sciences, 2150 Batchelor Hall, Institute for Integrative Genome Biology, Riverside, CA 92521, USA;

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1. Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement [J] . Molecular Plant . 2009,第1期

机译：非生物胁迫耐受性：从模型生物的基因发现到作物改良
2. Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement [J] . Ray Bressan, Hans Bohnert, Jian-Kang Zhu 分子植物（英文版） . 2009,第001期

机译：非生物胁迫耐受性：从模型生物的基因发现到作物改良
3. From model to crop: functional characterization of SPL8 in M.????truncatula led to genetic improvement of biomass yield and abiotic stress tolerance in alfalfa [J] . Zeng‐Yu Wang, Jiangqi Wen, Yuhong Tang, Plant Biotechnology Journal . 2017,第4期

机译：从模型到农作物：t藜中SPL8的功能表征导致苜蓿生物量产量和非生物胁迫耐受性的遗传改良
4. Functional genomics for gene discovery in abiotic stress response and tolerance [C] . K. Shinozaki, K. Yamaguchi-Shinozaki International Rice Genetics Symposium . 2007

机译：非生物应激反应中基因发现的功能基因组学及耐受性
5. Improvement of abiotic stress tolerance and calcium-deficiency disorder resistance of tomato plants [D] . Wu, Qingyu 2012

机译：改善番茄植物的非生物胁迫耐受性和钙缺乏症抗性
6. Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement [O] . Ray Bressan, Hans Bohnert, Jian-Kang Zhu -1

机译：非生物胁迫耐受性：从模型生物的基因发现到作物改良
7. Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement [O] . Bressan, Ray, Bohnert, Hans, Zhu, Jian-Kang 2009

机译：非生物胁迫耐受性：从模型生物的基因发现到作物改良

Abiotic Stress Tolerance: From Gene Discovery in Model Organisms to Crop Improvement

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