Overexpression of the Arabidopsis CBF3 Transcriptional Activator Mimics Multiple Biochemical Changes Associated with Cold Acclimation

doi:10.1104/pp.124.4.1854

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Overexpression of the Arabidopsis CBF3 Transcriptional Activator Mimics Multiple Biochemical Changes Associated with Cold Acclimation¹

Sarah J. Gilmour, Audrey M. Sebolt, Maite P. Salazar, John D. Everard, and Michael F. Thomashow^*

Department of Crop and Soil Sciences, Michigan State University, East Lansing, Michigan 48824-1325 (S.J.G., A.M.S., M.P.S., M.F.T.); and Dupont Agricultural Products Biotechnology Experiment Station 402/5238, Wilmington, Delaware 19880-0402 (J.D.E.)

We further investigated the role of the Arabidopsis CBF regulatory genes in cold acclimation, the process whereby certainplants increase in freezing tolerance upon exposure to low temperature.The CBF genes, which are rapidly induced in response to low temperature,encode transcriptional activators that control the expressionof genes containing the C-repeat/dehydration responsive elementDNA regulatory element in their promoters. Constitutive expressionof either CBF1 or CBF3 (also known as DREB1b and DREB1a, respectively)in transgenic Arabidopsis plants has been shown to induce theexpression of target COR (cold-regulated) genes and to enhancefreezing tolerance in nonacclimated plants. Here we demonstratethat overexpression of CBF3 in Arabidopsis also increases thefreezing tolerance of cold-acclimated plants. Moreover, we showthat it results in multiple biochemical changes associated withcold acclimation: CBF3-expressing plants had elevated levels ofproline (Pro) and total soluble sugars, including sucrose, raffinose,glucose, and fructose. Plants overexpressing CBF3 also had elevatedP5CS transcript levels suggesting that the increase in Pro levelsresulted, at least in part, from increased expression of the keyPro biosynthetic enzyme $Delta$ ¹-pyrroline-5-carboxylate synthase. These results lead us to proposethat CBF3 integrates the activation of multiple components ofthe cold acclimationresponse.

¹ This work was supported in part by a subcontract (no. 593-0219-06) under the U.S. Department of Agriculture/Cooperative StateResearch, Education and Extension Service Cooperative Agreement(no. 96-34340-2711) North Central Biotechnology Initiative andby funds from Mendel Biotechnology, Inc., and the Michigan AgriculturalExperimentStation.

^* Corresponding author; e-mail thomash6{at}pilot.msu.edu; fax 517-353-5174.

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