[ Objective] This study aimed to clone and analyze the expression of THWRKY12 gene in Tamarix hispida. [Method] T. hispida seedlings were treated with 400 mmol/L NaC1 solutlon, 20% PEG and 100 μmol/L ABA, respectivel...[ Objective] This study aimed to clone and analyze the expression of THWRKY12 gene in Tamarix hispida. [Method] T. hispida seedlings were treated with 400 mmol/L NaC1 solutlon, 20% PEG and 100 μmol/L ABA, respectively. The expression of THIVRKY12 gene in different tissues was investigated by RT-PCR technology. [Result] Under treatments of NaC1 and PEG, the expression of THWRKY12 gene in different tissues of T. h/sp/da seedlings showed an overall upregulated trend, suggesting that THWRKYI2 is related with the saline-alkali resistance and drought resistance of T. hispida. Under ABA treatment, THWRKY12 gene had approximately the same expression pattern with the former two, indicating that THWRKY12 gene may involve in the regulation and control of the saline-al- kali resistance and drought resistance of T. hispida through the signal pathway regulated by ABA. [ Conclusion] This study laid foundation for investigating the functions of WRKY gene in the stress resistance of T. hispida.展开更多
基金Supported by College Students Innovative Experimental Project of Northeast Forestry University(No.201210225004)
文摘[ Objective] This study aimed to clone and analyze the expression of THWRKY12 gene in Tamarix hispida. [Method] T. hispida seedlings were treated with 400 mmol/L NaC1 solutlon, 20% PEG and 100 μmol/L ABA, respectively. The expression of THIVRKY12 gene in different tissues was investigated by RT-PCR technology. [Result] Under treatments of NaC1 and PEG, the expression of THWRKY12 gene in different tissues of T. h/sp/da seedlings showed an overall upregulated trend, suggesting that THWRKYI2 is related with the saline-alkali resistance and drought resistance of T. hispida. Under ABA treatment, THWRKY12 gene had approximately the same expression pattern with the former two, indicating that THWRKY12 gene may involve in the regulation and control of the saline-al- kali resistance and drought resistance of T. hispida through the signal pathway regulated by ABA. [ Conclusion] This study laid foundation for investigating the functions of WRKY gene in the stress resistance of T. hispida.