Potential Sites of Bioactive Gibberellin Production during Reproductive Growth inArabidopsis

西力克 花瓣 雄蕊 赤霉素 生物 拟南芥 拟南芥 开花 植物 胚乳 十字花科 植物生殖形态学 突变体 基因 细胞生物学 遗传学 花粉 栽培
作者
Jianhong Hu,Melissa G. Mitchum,Neel G. Barnaby,Belay T. Ayele,Mikihiro Ogawa,Edward A. Nam,Wei-Chu Victoria Lai,Atsushi Hanada,José M. Alonso,Joseph R. Ecker,Stephen M. Swain,Shinjiro Yamaguchi,Yuji Kamiya,Tai‐ping Sun
出处
期刊:The Plant Cell [Oxford University Press]
卷期号:20 (2): 320-336 被引量:253
标识
DOI:10.1105/tpc.107.057752
摘要

Abstract Gibberellin 3-oxidase (GA3ox) catalyzes the final step in the synthesis of bioactive gibberellins (GAs). We examined the expression patterns of all four GA3ox genes in Arabidopsis thaliana by promoter–β-glucuronidase gene fusions and by quantitative RT-PCR and defined their physiological roles by characterizing single, double, and triple mutants. In developing flowers, GA3ox genes are only expressed in stamen filaments, anthers, and flower receptacles. Mutant plants that lack both GA3ox1 and GA3ox3 functions displayed stamen and petal defects, indicating that these two genes are important for GA production in the flower. Our data suggest that de novo synthesis of active GAs is necessary for stamen development in early flowers and that bioactive GAs made in the stamens and/or flower receptacles are transported to petals to promote their growth. In developing siliques, GA3ox1 is mainly expressed in the replums, funiculi, and the silique receptacles, whereas the other GA3ox genes are only expressed in developing seeds. Active GAs appear to be transported from the seed endosperm to the surrounding maternal tissues where they promote growth. The immediate upregulation of GA3ox1 and GA3ox4 after anthesis suggests that pollination and/or fertilization is a prerequisite for de novo GA biosynthesis in fruit, which in turn promotes initial elongation of the silique.
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