Isolation of GsNAC20 Gene from Glycine soja and Its Response to Abiotic Stresses

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2011-08-01 DOI:10.1016/S1875-2780(11)60037-0
Hua CAI, Yan-Ming ZHU, Yong LI, Xi BAI, Wei JI, Dong-Dong WANG, Xiao-Li SUN
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Abstract

Plant-specific transcription factor family NAC (NAM, ATAF1/2, CUC2) plays essential roles in various biological processes including development, senescence, morphogenesis, and stress signal transduction pathway. An NAC gene, which was designated GsNAC20 and showed 99% similarity to GmNAC20 (EU440353.1) from Glycine max, was isolated from G. soja using yeast one hybrid method. The GsNAC20 protein possesses a typical NAC DNA-binding domain at the N-terminal and a transcription activation region at the C-terminal. Like GmNAC20, GsNAC20 could bind to MYB1AT element (the core sequence of AAACCA) in vitro, but no transcriptional activation activity was detected in the yeast assay system. Using the transient expression system in tobacco epidermis cells, GsNAC20 was confirmed to be localized in nucleus. The expression of GsNAC20 was induced by drought, low temperature and salt stress, and the expression patterns were different in leaf and root of G. soja. Overexpression of GsNAC20 gene in the transgenetic lines of Arabidopsis thaliana resulted in enhanced sensitivity of the transgenic plants under salt stress. All results prove that GsNAC20 is a new member of the NAC family in G. soja, which is closely related to the stresses of salt and drought.

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甘氨酸大豆GsNAC20基因的分离及其对非生物胁迫的响应
植物特异性转录因子家族NAC (NAM, ATAF1/2, CUC2)在植物发育、衰老、形态发生和胁迫信号转导等多种生物过程中发挥着重要作用。采用酵母一杂交方法从大豆中分离到一个与Glycine max同源基因GmNAC20 (EU440353.1)相似度达99%的NAC基因,并将其命名为GsNAC20。GsNAC20蛋白在n端具有典型的NAC dna结合域,在c端具有转录激活区。与GmNAC20一样,GsNAC20在体外也能与MYB1AT元件(AAACCA的核心序列)结合,但在酵母实验系统中未检测到转录激活活性。利用烟草表皮细胞瞬时表达系统,证实GsNAC20定位于细胞核。GsNAC20受干旱、低温和盐胁迫诱导表达,且在大豆叶片和根系中的表达模式不同。GsNAC20基因在拟南芥转基因系中过表达,使转基因植株对盐胁迫的敏感性增强。这些结果证明GsNAC20是大豆NAC家族的新成员,与盐胁迫和干旱胁迫密切相关。
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30 weeks
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