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海马齿Na^+/H^+逆转运蛋白基因SpNHX1的克隆及表达模式 被引量:2

Isolation and Expression Analysis of Na^+/ H^+ Antiporter Gene SpNHX1 from Sesuvium portulacastrumand L.
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摘要 从盐生植物海马齿中克隆了Na+/H+逆转运蛋白基因SpNHX1,生物信息学分析结果表明,Sp NHX1蛋白与拟南芥At NHX1和At NHX2的相似度分别达到了76.35%和77.12%,从而推测,SpNHX1可能具有与At NHX1和At NHX2相似的功能,能将Na+区隔到液泡中,提高植物耐盐性。采用荧光定量PCR的方法,对SpNHX1基因在4种胁迫(600 mmol·L-1Na Cl胁迫、100μmol·L-1ABA胁迫、4℃低温胁迫、20%PEG6000干旱胁迫)下的表达量进行了研究。结果表明:SpNHX1基因在根和茎中受盐胁迫诱导上调表达,叶中表达量变化较小;而在ABA胁迫、4℃低温胁迫、20%PEG6000干旱胁迫下,SpNHX1基因的表达受胁迫影响较小,且没有规律性。说明SpNHX1基因的表达与其耐盐性相关,且表达具有组织特性。 A Na^+/H ^+ antiporter gene SpNHX1 from Sesuvium portulacastrumand L. was cloned by using PCR methods. Bioinformation analysis showed that SpNHX1 shared higher identity with AtNHX1 (76.35%) and At- NHX2 (77.12%), which indicated that the protein SpNHX1 might have similar function as AtNHX1 and At- NHX2 that compartmentalize excessive Na^+ into vacuole, thus improving plant salt tolerance. Real-time PCR was used for identification of the expression levels of the gene SpNHX1 under 4 different stress treatments, 600 mmol · L^-1 NaCl, 100 μmol · L^-1 ABA, low temperature at 4℃, and 20% PEG6000 drought stress. The gene SpNttX1 was up-regulated in the roots and stems other than in leaves under salt stress. Hardly clear expression tendency of SpNHX1 was observed under 100 μmol · L^-1 ABA, low temperature at 4℃, and drought stress. These illustrated that the expression of the gene SpNHX1 was related to plant salt tolerance, and its expression was tissue-specific.
出处 《热带生物学报》 2015年第2期127-133,共7页 Journal of Tropical Biology
基金 国家自然科学基金项目(31260218) 海南省自然科学基金项目(313030) 海南大学科研启动项目(Kyqd1205)
关键词 海马齿 Na+/H+逆转运蛋白 SpNHX1 耐盐性 基因表达 Sesuvium portulacastrumand L. Na^+/H^+ antiporter SpNHX1 salt tolerance gene expression
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