Modification of gibberellin production and plant development in Arabidopsis by sense and antisense expression of gibberellin 20‐oxidase genes

A - Papers appearing in refereed journals

Coles, J. P., Phillips, A. L., Croker, S. J., García‐Lepe, R., Lewis , M. J. and Hedden, P. 1999. Modification of gibberellin production and plant development in Arabidopsis by sense and antisense expression of gibberellin 20‐oxidase genes. The Plant Journal. 17 (5), pp. 547-556. https://doi.org/10.1046/j.1365-313X.1999.00410.x

AuthorsColes, J. P., Phillips, A. L., Croker, S. J., García‐Lepe, R., Lewis , M. J. and Hedden, P.
Abstract

Summary Gibberellin (GA) 20‐oxidase catalyses consecutive steps late in GA biosynthesis in plants. In Arabidopsis , the enzyme is encoded by a gene family of at least three members ( AtGA20ox1 , AtGA20ox2 and AtGA20ox3 ) with differential patterns of expression. The genes are regulated by feedback from bioactive GAs, suggesting that the enzymes may be involved in regulating GA biosynthesis. To investigate this, we produced transgenic Arabidopsis expressing sense or antisense copies of each of the GA 20‐oxidase cDNAs. Over‐expression of any of the cDNAs gave rise to seedlings with elongated hypocotyls; the plants flowered earlier than controls in both long and short days and were 25% taller at maturity. GA analysis of the vegetative rosettes showed a two‐ to threefold increase in the level of GA4, indicating that GA 20‐oxidase normally limits bioactive GA levels. Plants expressing antisense copies of AtGA20ox1 had short hypocotyls and reduced rates of stem elongation. This was reflected in reduced levels of GA4 in both rosettes and shoot tips. In short days, flowering was delayed and the reduction in the rate of stem elongation was greater. Antisense expression of A tGA20ox2 had no apparent effects in long days, but stem growth in one transgenic line grown in short days was reduced by 20%. Expression of antisense copies of AtGA20ox3 had no visible effect, except for one transgenic line that had short hypocotyls. These results demonstrate that GA levels and, hence, plant growth and development can be modified by manipulation of GA 20‐oxidase expression in transgenic plants.

Year of Publication1999
JournalThe Plant Journal
Journal citation17 (5), pp. 547-556
Digital Object Identifier (DOI)https://doi.org/10.1046/j.1365-313X.1999.00410.x
Open accessPublished as non-open access
PublisherWiley

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