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KMID : 0368420060490010061
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Journal of Plant Biology
2006 Volume.49 No. 1 p.61 ~ p.69
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AnArabidopsis short root and dwarfism mutant defines a novel locus that mediates both cell division and elongation
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Lee Hyun-Kyung
Kwon Mi
Jeon Ji-Hyun
Fujioka Shozo
Kim Ho-Bang
Park So-Young
Takatsuto Suguru
Yoshida Shigeo
Lee Il-Ha
An Chung-Sun
Choe Sung-Hwa
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Abstract
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Arabidopsis leaf morphology is determined by the coordinated action of cell division and elongation. Of all the hormones that control leaf shape, the brassinosteroids (BRs) are active components in this process. BRs are a group of plant-originated steroidal compounds that induce growth along the long axes of organs. Here, we report the isolation and characterization of a novel mutant,short root and dwarfism (srd). Its dwarf phenotype includes round and curled leaves, reduced fertility, and short hypocotyls in the light and dark. Dwarfism in the aerial portions and a short-root morphology are not rescued by exogenous application of BRs, suggesting thatsrd is not impaired in BR metabolic pathways. Anatomical analysis revealed thatsrd roots are much shorter and thicker than the wild type due to additional layers of cortical cells. A lack of cell elongation but an increase in division results in these short but horizontally swollen roots. A double mutantsrd/bri1-5 also displays the short-root phenotype, implying thatsrd is epistatic tobri1. Cloning and further characterization ofSRD should provide additional information about its role in the determination of leaf shape and root elongation.
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KEYWORD
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brassinosteroids, cell division, cell elongation, dwarf, short root
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