Arabidopsis 2010: Collaborative Research: Physiological and Genetical Genomics of Drought Adaptation and Acclimation Networks

拟南芥 2010：合作研究：干旱适应和驯化网络的生理和遗传基因组学

• 批准号: 0618347
• 负责人: Thomas Juenger
• 金额: --
• 依托单位: University of Texas at Austin
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-09-15 至 2009-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0618347&HistoricalAwards=false
• 关键词: Arabidopsis; 2010; Collaborative; Research; Physiological

Drought stress is ubiquitous and is an important selective agent in the evolution of plant growth, development, and physiology. Drought stress is also a major limiting factor to crop productivity worldwide. Many plant species vary among genetic lines in their ability to cope with drought and this variation provides a unique resource for exploring gene function. This 2010 project will identify genes and physiological networks associated with drought resistance in Arabidopsis thaliana using genome-wide molecular techniques and natural variation among accessions from different locations. Drought-induced gene expression and physiological differences among accessions with extreme high and low water use efficiency will be characterized and genes involved will be mapped to genomic positions. In addition, new resources will be developed for quantitative genetic studies in Arabidopsis, including a mapping population and a series of genetic lines capturing genomic regions from physiologically diverse accessions. Results from this project will be useful for application to crop improvement and to understanding evolution of drought resistance in plants. The project will provide training for postdocs and students in molecular genetics, evolutionary biology, physiology, and bioinformatics - skills necessary for the next generation of successful genomic scientists. Undergraduate and community college students will gain research experience and career exploration and preparation. All plant materials and associated genotypic data will be made available using The Arabidopsis Information Resource infrastructure (http://www.arabidopsis.org). Project progress will be available at the project website (https://webspace.utexas.edu/tjuenger/www/2010.htm). Microarray data generated through the project will be submitted to AtGenExpress (http://web.uni-frankfurt.de/fb15/botanik/mcb/AFGN/atgenex.htm).

干旱压力无处不在，是植物生长，发育和生理学进化的重要选择剂。 干旱压力也是全球作物生产力的主要限制因素。许多植物物种在应对干旱的能力方面有所不同，这种变异为探索基因功能提供了独特的资源。 该2010年项目将使用全基因组分子技术和来自不同位置的加入之间的自然变异来确定拟南芥中与抗旱性抗旱性相关的基因和生理网络。干旱诱导的基因表达和极高和低水利用效率的加入之间的生理差异将被表征，涉及的基因将映射到基因组位置。 此外，将开发新的资源用于拟南芥的定量遗传研究，包括映射人群和一系列遗传线，从生理上多样化的辅助捕获基因组区域。 该项目的结果对于应用作物改善和了解植物中抗旱性的演变将很有用。该项目将为博士后和学生提供分子遗传学，进化生物学，生理学和生物信息学的培训 - 下一代成功的基因组科学家所必需的技能。本科和社区大学生将获得研究经验以及职业探索和准备。 所有植物材料和相关的基因型数据将使用拟南芥信息资源基础设施（http://www.arabidopsis.org）提供。 项目进度将在项目网站（https://webspace.utexas.edu/tjuenger/www/2010.htm）上获得。 通过该项目生成的微阵列数据将提交给Atgenexpress（http://web.uni-frankfurt.de/fb15/botanik/mcb/mcb/afgn/atgenex.htm）。