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Analysis of the Developmental Roles of the Arabidopsis Gibberellin 20-Oxidases Demonstrates That GA20ox1, -2, and -3 Are the Dominant Paralogs

生物 拟南芥 赤霉素 遗传学 基因 进化生物学 突变体
作者
Andrew R. G. Plackett,Stephen J. Powers,Nieves Fernández‐García,Terezie Urbanová,Yumiko Takebayashi,Mitsunori Seo,Yusuke Jikumaru,Reyes Benlloch,Ove Nilsson,Omar Ruíz‐Rivero,Andrew L. Phillips,Zoe A. Wilson,Stephen G. Thomas,Peter Hedden
出处
期刊:The Plant Cell [Oxford University Press]
卷期号:24 (3): 941-960 被引量:192
标识
DOI:10.1105/tpc.111.095109
摘要

Gibberellin (GA) biosynthesis is necessary for normal plant development, with later GA biosynthetic stages being governed by multigene families. Arabidopsis thaliana contains five GA 20-oxidase (GA20ox) genes, and past work has demonstrated the importance of GA20ox1 and -2 for growth and fertility. Here, we show through systematic mutant analysis that GA20ox1, -2, and -3 are the dominant paralogs; their absence results in severe dwarfism and almost complete loss of fertility. In vitro analysis revealed that GA20ox4 has full GA20ox activity, but GA20ox5 catalyzes only the first two reactions of the sequence by which GA12 is converted to GA9. GA20ox3 functions almost entirely redundantly with GA20ox1 and -2 at most developmental stages, including the floral transition, while GA20ox4 and -5 have very minor roles. These results are supported by analysis of the gene expression patterns in promoter:β-glucuronidase reporter lines. We demonstrate that fertility is highly sensitive to GA concentration, that GA20ox1, -2, and -3 have significant effects on floral organ growth and anther development, and that both GA deficiency and overdose impact on fertility. Loss of GA20ox activity causes anther developmental arrest, with the tapetum failing to degrade. Some phenotypic recovery of late flowers in GA-deficient mutants, including ga1-3, indicated the involvement of non-GA pathways in floral development.

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