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Entry URI http://metadb.riken.jp/db/SciNetS_ria224i/cria224u4ria224u12897256i
Entry name Cheong Yong Hwa et al. 2003 Aug. Plant Cell 15(8):1833-45.
Title CBL1, a calcium sensor that differentially regulates salt, drought, and cold responses in Arabidopsis.
Authors Cheong Yong Hwa|Grant John J|Gupta Rajeev|Kim Kyung-Nam|Luan Sheng|Pandey Girdhar K
Abstract Although calcium is a critical component in the signal transduction pathways that lead to stress gene expression in higher plants, little is known about the molecular mechanism underlying calcium function. It is believed that cellular calcium changes are perceived by sensor molecules, including calcium binding proteins. The calcineurin B-like (CBL) protein family represents a unique group of calcium sensors in plants. A member of the family, CBL1, is highly inducible by multiple stress signals, implicating CBL1 in stress response pathways. When the CBL1 protein level was increased in transgenic Arabidopsis plants, it altered the stress response pathways in these plants. Although drought-induced gene expression was enhanced, gene induction by cold was inhibited. In addition, CBL1-overexpressing plants showed enhanced tolerance to salt and drought but reduced tolerance to freezing. By contrast, cbl1 null mutant plants showed enhanced cold induction and reduced drought induction of stress genes. The mutant plants displayed less tolerance to salt and drought but enhanced tolerance to freezing. These studies suggest that CBL1 functions as a positive regulator of salt and drought responses and a negative regulator of cold response in plants.
Pubmed ID 12897256
Journal The Plant cell
Volume 15
Issue 8
Pages 1833-45
Publication date 2003 Aug
Num of phenotype gene 0