Induced Expression of DREB Transcriptional Factor and Study on Its Physiological Effects of Drought Tolerance in Transgenic Wheat

WANG Jun-Wei , YANG Feng-Ping , CHEN Xu-Qing , LIANG Rong-Qi , ZHANG Li-Quan , GENG Dong-Mei , ZHANG Xiao-Dong , SONG Ya-Zhen , ZHANG Gai-Sheng
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引用次数: 45

Abstract

Expression vector pBAC128F, which carries DREB transcriptional factor gene driven by drought inducing promoter rd29B and bar gene driven by CaMV 35S promoter and maize Adh1 gene first intron, was transferred into the explants of immature inflorescence and immature embryos of hexaploid winter wheat cv. 8901, 5–98, 99–92 and 104 by particle bombardment. More than 70 resistant transgenic plants were obtained. Genomic PCR and RNA dot blotting analyses showed that DREB gene had been integrated into wheat genome of the transgenic plants (T0 and T1) and was well expressed in offspring seed of different transgenic lines. The content of proline in leaves and seeds of T2 transgenic lines was analyzed. Among 16 tested transgenic lines, 10 transgenic lines exhibited more than two fold of proline level in leaves as compared with CK plants. Under drought condition, after stopping water for 15 days the leaves of transgenic lines were still green, while CK were faded. After rewatering for 10 days, the leaves of transgenic lines maintained their green, while all CK plants were dead. Our research suggested that introducing a novel DREB transcriptional factor into wheat is an effective way to improve its drought-tolerance ability.

DREB转录因子在转基因小麦中的诱导表达及其抗旱生理效应研究
将携带干旱诱导启动子rd29B驱动的DREB转录因子基因、CaMV 35S启动子驱动的bar基因和玉米Adh1基因第一内含子的表达载体pBAC128F转移到六倍体冬小麦未成熟花序和未成熟胚的外植体中。8901、5-98、99-92和104的粒子轰击。获得了70多个具有抗性的转基因植株。基因组PCR和RNA点印迹分析表明,DREB基因已整合到转基因植株(T0和T1)的小麦基因组中,并在不同转基因品系的子代种子中表达良好。对T2转基因植株叶片和种子中脯氨酸含量进行了分析。在16个转基因品系中,有10个品系的叶片脯氨酸含量比对照植株高2倍以上。在干旱条件下,转基因品系在停水15天后叶片仍呈绿色,而对照品系则逐渐褪色。复水10天后,转基因植株叶片保持绿色,而对照植株全部死亡。本研究表明,在小麦中引入新的DREB转录因子是提高小麦抗旱能力的有效途径。
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