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KMID : 0368420070500030336
Journal of Plant Biology
2007 Volume.50 No. 3 p.336 ~ p.343
CbLEA, a NovelLEA Gene fromChorispora bungeana, Confers Cold Tolerance in Transgenic Tobacco
Zhang Hua

Zhou Rui Xia
Zhang Li Jing
Wang Ruo Yu
An Li Zhe
Abstract
A novel late embryogenesis abundant (LEA) gene (AY804193), namedCbLEA, has now been isolated fromChorispora bungeana. This rare alpine subnival plant can survive sudden snowstorms and low temperatures. The full-lengthCbLEA is 842 bp, with an open reading frame encoding 169 ami no acids. The putative molecular weight ofCbLEA protein is 17.9 kDa, with an estimatedpl of 6.45. To investigate the functioning of thisCbLEA protein in cold-stress tolerance,CbLEA was introduced into tobacco under the control of the CaMV35S promoter. Second-generation (R1) transgenic tobacco plants exhibited significantly increased tolerance to cold. These transgenics maintained lower malondialdehyde (MDA) contents and electrolyte leakage (EL) but their relative water content (RWC) was significantly higher compared with non-transgenic plants under chilling stress. Further experimental results showed that non-transgenic plants had severe freezing damage after exposure to -2¡ÆC for 1 h, whereas the transgenics suffered only slight injury under the same conditions. Moreover, survival was longer in the latter genotype at that temperature. The extent of increased cold tolerance was positive correlated with the level ofCbLEA protein accumulation, and was also reflected by the delayed development of damage symptoms. This indicates thatCbLEA is an excellent stress tolerance gene, and holds considerable potential as a new molecular tool for engineering improved plant genetics.
KEYWORD
chilling stress, Chorispora bungeana, cold tolerance, freezing stress, LEA gene, transgenic tobacco
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