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Genetic control of floral zygomorphy in pea (Pisum sativum L.).


ABSTRACT: Floral zygomorphy (flowers with bilateral symmetry) has multiple origins and typically manifests two kinds of asymmetries, dorsoventral (DV) and organ internal (IN) asymmetries in floral and organ planes, respectively, revealing the underlying key regulators in plant genomes that generate and superimpose various mechanisms to build up complexity and different floral forms during plant development. In this study, we investigate the loci affecting these asymmetries during the development of floral zygomorphy in pea (Pisum sativum L.). Two genes, LOBED STANDARD 1 (LST1) and KEELED WINGS (K), were cloned that encode TCP transcription factors and have divergent functions to constitute the DV asymmetry. A previously undescribed regulator, SYMMETRIC PETALS 1 (SYP1), has been isolated as controlling IN asymmetry. Genetic analysis demonstrates that DV and IN asymmetries could be controlled independently by the two kinds of regulators in pea, and their interactions help to specify the type of zygomorphy. Based on the genetic analysis in pea, we suggest that variation in both the functions and interactions of these regulators could give rise to the wide spectrum of floral symmetries among legume species and other flowering plants.

SUBMITTER: Wang Z 

PROVIDER: S-EPMC2492476 | biostudies-literature | 2008 Jul

REPOSITORIES: biostudies-literature

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Genetic control of floral zygomorphy in pea (Pisum sativum L.).

Wang Zheng Z   Luo Yonghai Y   Li Xin X   Wang Liping L   Xu Shilei S   Yang Jun J   Weng Lin L   Sato Shusei S   Tabata Satoshi S   Ambrose Mike M   Rameau Catherine C   Feng Xianzhong X   Hu Xiaohe X   Luo Da D  

Proceedings of the National Academy of Sciences of the United States of America 20080723 30


Floral zygomorphy (flowers with bilateral symmetry) has multiple origins and typically manifests two kinds of asymmetries, dorsoventral (DV) and organ internal (IN) asymmetries in floral and organ planes, respectively, revealing the underlying key regulators in plant genomes that generate and superimpose various mechanisms to build up complexity and different floral forms during plant development. In this study, we investigate the loci affecting these asymmetries during the development of floral  ...[more]

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