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KMID : 0368420130560060375
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Journal of Plant Biology
2013 Volume.56 No. 6 p.375 ~ p.382
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Overexpression of the AtSTK gene increases salt, PEG and ABA tolerance in Arabidopsis
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Bing Lei
Feng Cui-Cui
Li Jing-Lan
Jing-Lan Li
Zhao Bao-Cun
Shen Yin-Zhu
Huang Zhan-Jing
Ge Rong-Chao
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Abstract
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AtSTK (At5g02800), which is a serine-threonine protein kinase gene of Arabidopsis thaliana, was cloned, and its function was studied. The study found that the overexpression of AtSTK could significantly improve the ability of A. thaliana to tolerate salt, PEG, and ABA stresses. RT-PCR analysis revealed that the expression of the AtSTK gene could be obviously induced by salt, PEG, and ABA. The examination of the physiological characteristics showed that the overexpression of AtSTK in Arabidopsis significantly reduced the plasma membrane permeability, significantly increased the proline content, and decreased the MDA content. These changes may reflect the physiological mechanisms through which AtSTK overexpression improves stress resistance in Arabidopsis. In addition, the overexpression of the AtSTK gene significantly antagonised the inhibitory effect of high concentrations of exogenous ABA on Arabidopsis seed germination. The subcellular localisation results showed that AtSTK is located in both the cytosol and the nucleus. The examination of its tissue-specific expression showed that AtSTK is expressed in various Arabidopsis tissues and is particularly strongly expressed in the vessels. The signalling pathway analysis indicated that AtSTK might transfer the salt stress signal in Arabidopsis through the MAPK pathway.
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KEYWORD
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Abiotic resistance, AtSTK, Overexpression, Signalling pathway
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