The role of a class III gibberellin 2‐oxidase in tomato internode elongation |
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Authors: | Amanda Schrager‐Lavelle Natalie N Gath Upendra K Devisetty Esther Carrera Isabel Lpez‐Díaz Miguel A Blzquez Julin N Maloof |
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Institution: | Amanda Schrager‐Lavelle,Natalie N. Gath,Upendra K. Devisetty,Esther Carrera,Isabel López‐Díaz,Miguel A. Blázquez,Julin N. Maloof |
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Abstract: | A network of environmental inputs and internal signaling controls plant growth, development and organ elongation. In particular, the growth‐promoting hormone gibberellin (GA) has been shown to play a significant role in organ elongation. The use of tomato as a model organism to study elongation presents an opportunity to study the genetic control of internode‐specific elongation in a eudicot species with a sympodial growth habit and substantial internodes that can and do respond to external stimuli. To investigate internode elongation, a mutant with an elongated hypocotyl and internodes but wild‐type petioles was identified through a forward genetic screen. In addition to stem‐specific elongation, this mutant, named tomato internode elongated ‐1 (tie‐1) is more sensitive to the GA biosynthetic inhibitor paclobutrazol and has altered levels of intermediate and bioactive GAs compared with wild‐type plants. The mutation responsible for the internode elongation phenotype was mapped to GA2oxidase 7, a class III GA 2‐oxidase in the GA biosynthetic pathway, through a bulked segregant analysis and bioinformatic pipeline, and confirmed by transgenic complementation. Furthermore, bacterially expressed recombinant TIE protein was shown to have bona fide GA 2‐oxidase activity. These results define a critical role for this gene in internode elongation and are significant because they further the understanding of the role of GA biosynthetic genes in organ‐specific elongation. |
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Keywords: | gibberellins class III GA 2‐oxidase
Solanum lycopersicum
tomato internode elongation bulked segregant analysis |
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