Gibberellin metabolism and its regulation in plants

植物中赤霉素代谢及其调控

• 批准号: 386599-2010
• 负责人: Ayele, Belay
• 金额: $ 2.33万
• 依托单位: University of Manitoba
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2014
• 资助国家: 加拿大
• 起止时间: 2014-01-01 至 2015-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=550506
• 关键词: Gibberellin; metabolism; its; regulation; plants

Gibberellin (GA) is one of the plant produced compounds that are active and influence growth and developmental processes at very low concentrations, usually coined as "plant hormones". GA controls a wide range of plant developmental events including seed germination, stem elongation, leaf expansion, and flower, fruit and seed development. Deficiency or excess amounts of GA in plants affects their normal growth and development. Plants with low amounts of GA are dwarf, and exhibit low fertility and failure in seed development. By contrast, excess amounts of GA in plants triggers excessive growth, sterility and premature seed germination. Therefore, it is important for plants to control the levels of the growth-active form of GA by balancing its formation and degradation. Plants employ different strategies to ensure this balance and limit the amounts of GA. Several strategies and regulatory elements acting in the formation or degradation of the growth-active GA have been identified. However, given its multiple roles and complex metabolic pathways, it is more than likely that unknown strategies exist. The long term goal of my research program is to understand in detail how a plant fine-tunes the amounts of growth-active GA in its tissues during development and in response to the environment. The specific objective of this research is to investigate and identify new strategies that are involved in the regulation of plant GA levels. The outcomes of this study will advance our knowledge of how a plant maintains optimal amounts of GA for ensuring its normal growth and development. Since GA has diverse functions in plants; the findings of this work will provide powerful tools for improving crop performance and yield. Further, as this research involves training of graduate and undergraduate students, it will contribute to Canada's need for highly qualified plant biologists.

赤霉素(GA)是一种植物产生的化合物，在很低的浓度下具有活性，并影响生长和发育过程，通常被称为植物激素。GA控制广泛的植物发育事件，包括种子萌发、茎伸长、叶展开以及花、果实和种子的发育。植物体内GA缺乏或过量都会影响植物的正常生长发育。GA含量低的植株矮小，表现出低育性和种子发育失败。相比之下，植物中过量的GA会引发过度生长、不育和种子过早萌发。因此，对植物来说，通过平衡GA的形成和降解来控制其生长活性形式的水平是重要的。植物采用不同的策略来确保这种平衡并限制GA的数量。已经确定了在生长活性GA的形成或降解过程中起作用的几种策略和调节元件。然而，考虑到它的多重作用和复杂的代谢途径，很可能存在未知的策略。我的研究计划的长期目标是详细了解植物在发育过程中如何微调其组织中生长活性GA的数量，并对环境做出反应。这项研究的具体目标是调查和确定参与植物GA水平调节的新策略。这项研究的结果将促进我们对植物如何保持最适量的GA以确保其正常生长发育的了解。由于GA在植物中具有多种功能，因此这项工作的发现将为改善作物的表现和产量提供强有力的工具。此外，由于这项研究涉及研究生和本科生的培训，它将有助于加拿大对高素质植物生物学家的需求。