Cross-talk in Plant Hormone Signalling: What Arabidopsis Mutants Are Telling Us

doi:10.1093/aob/mcg064

AOBPreview published online on March 6, 2003
Annals of Botany, doi:10.1093/aob/mcg064
© 2003 by Annals of Botany Company

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Submitted on November 8, 2002
Revised on December 11, 2002
Accepted on January 20, 2003

Cross-talk in Plant Hormone Signalling: What Arabidopsis Mutants Are Telling Us

SONIA GAZZARRINI¹ and PETER MCCOURT¹^*

Affiliation of the authors: ¹ Department of Botany, University of Toronto, Toronto, Ontario, Canada M5S 3B2

^* To whom correspondence should be addressed. E-mail: mccourt{at}botany.utoronto.ca.

Genetic screens have been extremely useful in identifying genesinvolved in hormone signal transduction. However, although thesescreens were originally designed to identify specific componentsinvolved in early hormone signalling, mutations in these genesoften confer changes in sensitivity to more than one hormoneat the whole-plant level. Moreover, a variety of hormone responsegenes has been identified through screens that were originallydesigned to uncover regulators of sugar metabolism. Together,these facts indicate that the linear representation of the hormonesignalling pathways controlling a specific aspect of plant growthand development is not sufficient, and that hormones interactwith each other and with a variety of developmental and metabolicsignals. Following the advent of arabidopsis molecular geneticswe are beginning to understand some of the mechanisms by whicha hormone is transduced into a cellular response. In this BotanicalBriefing we review a subset of genes in arabidopsis that influencehormonal cross-talk, with emphasis on the gibberellin, abscisicacid and ethylene pathways. In some cases it appears that modulationof hormone sensitivity can cause changes in the synthesis ofan unrelated hormone, while in other cases a hormone responsegene defines a node of interaction between two response pathways.It also appears that a variety of hormones may converge to regulatethe turnover of important regulators involved in growth anddevelopment. Examples are cited of the recent use of suppressorand enhancer analysis to identify new nodes of interaction betweenthese pathways.

Key words: Development, hormones, arabidopsis, genetic interactions.

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