Colleen Drapek, Annalisa Rizza, Nadiatul A Mohd-Radzman, Katharina Schiessl, Fabio Dos Santos Barbosa, Jiangqi Wen, Giles E D Oldroyd, Alexander M Jones
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引用次数: 0
Abstract
During nutrient scarcity, plants can adapt their developmental strategy to maximize their chance of survival. Such plasticity in development is underpinned by hormonal regulation, which mediates the relationship between environmental cues and developmental outputs. In legumes, endosymbiosis with nitrogen-fixing bacteria (rhizobia) is a key adaptation for supplying the plant with nitrogen in the form of ammonium. Rhizobia are housed in lateral root-derived organs termed nodules that maintain an environment conducive to Nitrogenase in these bacteria. Several phytohormones are important for regulating the formation of nodules, with both positive and negative roles proposed for gibberellin (GA). In this study, we determine the cellular location and function of bioactive GA during nodule organogenesis using a genetically encoded second-generation GA biosensor, GIBBERELLIN PERCEPTION SENSOR 2 in Medicago truncatula. We find endogenous bioactive GA accumulates locally at the site of nodule primordia, increasing dramatically in the cortical cell layers, persisting through cell divisions, and maintaining accumulation in the mature nodule meristem. We show, through misexpression of GA-catabolic enzymes that suppress GA accumulation, that GA acts as a positive regulator of nodule growth and development. Furthermore, increasing or decreasing GA through perturbation of biosynthesis gene expression can increase or decrease the size of nodules, respectively. This is unique from lateral root formation, a developmental program that shares common organogenesis regulators. We link GA to a wider gene regulatory program by showing that nodule-identity genes induce and sustain GA accumulation necessary for proper nodule formation.
在养分匮乏的情况下,植物可以调整其发育策略,以最大限度地提高生存机会。这种发育可塑性的基础是激素调节,它介导了环境线索与发育产出之间的关系。在豆科植物中,与固氮菌(根瘤菌)的内共生是为植物提供铵态氮的主要适应方式。根瘤菌寄生在侧根衍生的器官中,这些器官被称为 "结节",可维持有利于这些细菌的氮酶的环境。有几种植物激素对调节结核的形成很重要,其中赤霉素(GA)被认为具有积极和消极的作用。在本研究中,我们利用遗传编码的第二代 GA 生物传感器--赤霉素感知传感器 2(GIBBERELLIN PERCEPTION SENSOR 2),确定了在美智子(Medicago truncatula)的结核器官形成过程中生物活性 GA 的细胞位置和功能。我们发现内源生物活性 GA 在结节原基部位局部积累,在皮层细胞层中急剧增加,在细胞分裂过程中持续存在,并在成熟的结节分生组织中保持积累。我们通过抑制 GA 积累的 GA 分解酶的错误表达表明,GA 对结核的生长和发育起着积极的调节作用。此外,通过扰乱生物合成基因的表达来增加或减少 GA,可分别增加或减少结核的大小。这与侧根的形成不同,侧根的形成是一种发育程序,而侧根的形成具有共同的器官发生调控因子。我们将 GA 与更广泛的基因调控程序联系起来,证明了结核特征基因诱导并维持适当的结核形成所需的 GA 积累。
期刊介绍:
Title: Plant Cell
Publisher:
Published monthly by the American Society of Plant Biologists (ASPB)
Produced by Sheridan Journal Services, Waterbury, VT
History and Impact:
Established in 1989
Within three years of publication, ranked first in impact among journals in plant sciences
Maintains high standard of excellence
Scope:
Publishes novel research of special significance in plant biology
Focus areas include cellular biology, molecular biology, biochemistry, genetics, development, and evolution
Primary criteria: articles provide new insight of broad interest to plant biologists and are suitable for a wide audience
Tenets:
Publish the most exciting, cutting-edge research in plant cellular and molecular biology
Provide rapid turnaround time for reviewing and publishing research papers
Ensure highest quality reproduction of data
Feature interactive format for commentaries, opinion pieces, and exchange of information in review articles, meeting reports, and insightful overviews.