The ectopic overexpression of a citrus gibberellin 20-oxidase enhances the non-13-hydroxylation pathway of gibberellin biosynthesis and induces an extremely elongated phenotype in tobacco

The ectopic overexpression of a citrus gibberellin 20-oxidase enhances the non-13-hydroxylation pathway of gibberellin biosynthesis and induces an extremely elongated phenotype in tobacco

Transgenic plants of Nicotiana tabacum overexpressing a gibberellin (GA) 20‐oxidase cDNA (CcGA20ox1) from citrus, under the control of the 35S promoter, were taller (up to twice) and had larger inflorescences and longer flower peduncles than those of control plants. Hypocotyls of transgenic seedling...

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Bibliographic Details
Published in:Physiologia plantarum Vol. 112; no. 2; pp. 251 - 260
Main Authors: Vidal, A.M, Gisbert, C, Talon, M, Primo-Millo, E, Lopez-Diaz, I, Garcia-Martinez, J.L. (Valencia Politecnica Univ. (Spain))
Format: Journal Article
Language:English
Published: Copenhagen Munksgaard International Publishers 01-06-2001
Blackwell
Subjects:
ACIDO GIBERELICO
AGROBACTERIUM TUMEFACIENS
Agronomy. Soil science and plant productions
Biological and medical sciences
BIOSINTESIS
BIOSYNTHESE
BIOSYNTHESIS
Chemical agents
Economic plant physiology
Fundamental and applied biological sciences. Psychology
GENE TRANSFER
GIBBERELLINE
Growth and development
Growth regulators
NICOTIANA TABACUM
Plant physiology and development
PLANTAS TRANSGENICAS
PLANTE TRANSGENIQUE
TRANSFERENCIA DE GENES
TRANSFERT DE GENE
TRANSGENIC PLANTS
Vegetative apparatus, growth and morphogenesis. Senescence
Enzyme
Growth
Citrus fruit
Oxidase
Rutaceae
Gene overexpression
Gibberellin
Stimulant plant
Biosynthesis
Metabolic pathway
Nicotiana tabacum
Citrus
Regulation(control)
Dicotyledones
Angiospermae
Plant growth substance
Above ground plant part
Spermatophyta
Transgenic plant
Oxidoreductases
Solanaceae
Gibberellic acid
Elongation
Plant height
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Summary:Transgenic plants of Nicotiana tabacum overexpressing a gibberellin (GA) 20‐oxidase cDNA (CcGA20ox1) from citrus, under the control of the 35S promoter, were taller (up to twice) and had larger inflorescences and longer flower peduncles than those of control plants. Hypocotyls of transgenic seedlings were also longer (up to 4 times), and neither the seedlings nor the growing plants elongated further after application of GA3. Hypocotyl and stem lengths were reduced by application of paclobutrazol, and this inhibition was reversed by exogenous GA3. The ectopic overexpression of CcGA20ox1 enhanced the non‐13‐hydroxylation pathway of GA biosynthesis leading to GA4, apparently at the expense of the early‐13‐hydroxylation pathway. The level of GA4 (the active GA from the non‐13‐hydroxylation pathway) in the shoot of transgenic plants was 3–4 times higher than in control plants, whereas that of GA1, formed via the early‐13‐hydroxylation pathway (the main GA biosynthesis pathway in tobacco), decreased or was not affected. GA4 applied to the culture medium or to the expanding leaves was found to be at least equally active as GA1 on stimulating hypocotyl and stem elongation of tobacco plants. The results suggest that the tall phenotype of tobacco transgenic plants was due to their higher content of GA4, and that the GA response was saturated by the presence of the transgene.
Bibliography:2002000080
F60
F30
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ArticleID:PPL1120214
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0031-9317
1399-3054
DOI:10.1034/j.1399-3054.2001.1120214.x