Functional characterization of a tomato COBRA-likegene functioning in fruit development and ripening

Extensive studies have demonstrated that the COBRA gene is critical for biosynthesis of cell wall constituents comprising structural tissues of roots, stalks, leaves and other vegetative organs, however, its role in fruit development and ripening remains largely unknown. We identified a tomato gene...

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Veröffentlicht in:	BMC plant biology 2012-11, Vol.12 (1), Article 211
Hauptverfasser:	Cao, Ying, Tang, Xiaofeng, Giovannoni, Jim, Xiao, Fangming, Liu, Yongsheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Biopolymers Cellulose Development Fruit Genetic aspects Genetic engineering Physiological aspects Plants Tomatoes
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creator	Cao, Ying Tang, Xiaofeng Giovannoni, Jim Xiao, Fangming Liu, Yongsheng
description	Extensive studies have demonstrated that the COBRA gene is critical for biosynthesis of cell wall constituents comprising structural tissues of roots, stalks, leaves and other vegetative organs, however, its role in fruit development and ripening remains largely unknown. We identified a tomato gene (SlCOBRA-like) homologous to Arabidopsis COBRA, and determined its role in fleshy fruit biology. The SlCOBRA-like gene is highly expressed in vegetative organs and in early fruit development, but its expression in fruit declines dramatically during ripening stages, implying a primary role in early fruit development. Fruit-specific suppression of SlCOBRA-like resulted in impaired cell wall integrity and up-regulation of genes encoding proteins involved in cell wall degradation during early fruit development. In contrast, fruit-specific overexpression of SlCOBRA-like resulted in increased wall thickness of fruit epidermal cells, more collenchymatous cells beneath the epidermis, elevated levels of cellulose and reduced pectin solubilization in the pericarp cells of red ripe fruits. Moreover, transgenic tomato fruits overexpressing SlCOBRA-like exhibited desirable early development phenotypes including enhanced firmness and a prolonged shelf life. Our results suggest that SlCOBRA-like plays an important role in fruit cell wall architecture and provides a potential genetic tool for extending the shelf life of tomato and potentially additional fruits.
doi_str_mv	10.1186/1471-2229-12-211
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subjects	Biopolymers Cellulose Development Fruit Genetic aspects Genetic engineering Physiological aspects Plants Tomatoes
title	Functional characterization of a tomato COBRA-likegene functioning in fruit development and ripening
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