CBL1, a Calcium Sensor That Differentially Regulates Salt, Drought, and Cold Responses in Arabidopsis

doi:10.1105/tpc.012393

CBL1, a Calcium Sensor That Differentially Regulates Salt, Drought, and Cold Responses in Arabidopsis

Yong Hwa Cheong¹^,a, Kyung-Nam Kim¹^,a^,b, Girdhar K. Pandey¹^,a, Rajeev Gupta^a, John J. Grant^a and Sheng Luan²^,a

^a Department of Plant and Microbial Biology, University of California, Berkeley, California 94720
^b Department of Molecular Biology, Sejong University, Seoul 143-747, Korea

^² To whom correspondence should be addressed. E-mail sluan{at}nature.berkeley.edu; fax 510-642-4995

Although calcium is a critical component in the signal transductionpathways that lead to stress gene expression in higher plants,little is known about the molecular mechanism underlying calciumfunction. It is believed that cellular calcium changes are perceivedby sensor molecules, including calcium binding proteins. Thecalcineurin B–like (CBL) protein family represents a uniquegroup of calcium sensors in plants. A member of the family,CBL1, is highly inducible by multiple stress signals, implicatingCBL1 in stress response pathways. When the CBL1 protein levelwas increased in transgenic Arabidopsis plants, it altered thestress response pathways in these plants. Although drought-inducedgene expression was enhanced, gene induction by cold was inhibited.In addition, CBL1-overexpressing plants showed enhanced toleranceto salt and drought but reduced tolerance to freezing. By contrast,cbl1 null mutant plants showed enhanced cold induction and reduceddrought induction of stress genes. The mutant plants displayedless tolerance to salt and drought but enhanced tolerance tofreezing. These studies suggest that CBL1 functions as a positiveregulator of salt and drought responses and a negative regulatorof cold response in plants.

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