Changes of DHN1 expression and subcellular distribution in A.delicisoa cells under osmotic stress

The changes of DHN1 expression and subcellular distribution in A. delicisoa cells under osmotic stress were studied by using GFP as a reporter molecule. Through creating the Xba I and BamH I restriction sites at the ends of dhn1 by PCR, the expression vector for the fusion protein DHN1-mGFP4 was constructed by cloning dhn1 into plasmid pBIN-35SmGFP4. Then the DHN1-mGFP4 expression vector was transformed into A. delicisoa suspension cells by microprojectile bombardment method. Bright green fluorescence of GFP which shows the high-level expression of DHN1-mGFP4 was visualized after culture for 10 h. However, the green fluorescence was only located within the nucleus. By increasing the culture medium osmotic potential, the green fluorescence was visualized in the cytoplasm (mainly around the plasma membranes). The generation of GFP fluorescence in the cytoplasm was also promoted by increasing the medium osmotic potential. Moreover, GFP green fluorescence was abolished by protein synthesis inhibitor dicyclohexylcarbodiimid, indicating that the cytoplasmic DHN1 was newly synthesized under osmotic stress. Furthermore, ABA promoted the presence of green fluorescence in the cytoplasm, and the GFP fluorescence was visualized within a shorter time under a higher osmotic potential.

E.coli中表达马铃薯OSM-3b基因对增强渗透胁迫抗性的分析

旨在揭示马铃薯OSM-3b基因表达对胁迫的响应。分离获得了OSM-3b的cDNA,构建OSM-3b的重组菌株DH-OSM,实现OSM-3b在大肠杆菌中的表达,RT-PCR检测了NaCl和PEG6000不同浓度梯度下OSM-3b的表达。结果显示,NaCl浓度在1%以上随盐浓度升高,OSM-3b mRNA的表达逐渐下降;在PEG6000浓度从0.25%升至4.0%时,OSM-3b的mRNA表达明显上升;在NaCl胁迫和PEG6000浓度梯度渗透胁迫下,重组菌株DH-OSM菌的菌落存活数统计分析结果显示,在不同NaCl浓度下重组菌的菌落存活数与对照趋势一致,重组菌菌落存活数峰值出现在的PEG6000浓度2.0%时,而对照菌DH-28c峰值则出现在PEG6000浓度1.0%时。结果表明,OSM-3b在大肠杆菌中表达对NaCl胁迫没有响应,但可缓冲渗透胁迫对其存活的影响。

日本结缕草ZjNAC3基因在盐胁迫中的功能

盐胁迫能够加速草坪草的黄化,影响草坪的坪观质量。植物中的NAC转录因子在盐胁迫条件下发挥着重要作用,参与胁迫响应,而在日本结缕草(Zoysia japonica)中还鲜有NAC转录因子的功能研究。本研究对转ZjNAC3基因(GenBank登录号:MT254544)的YPH500酵母菌株进行盐敏感性检测,初步判定ZjNAC3在盐胁迫下具有负调节酵母细胞生长的作用;对过表达ZjNAC3基因的拟南芥(Arabidopsis thaliana)株系进行盐处理,发现150 mmol·L^(−1) NaCl处理7 d后转基因植株的生长明显弱于野生型(wild type,WT),脯氨酸含量、丙二醛含量、细胞膜透性均显著高于WT(P<0.05),而叶绿素、可溶性糖含量显著低于WT(P<0.05);AtNHX1基因的表达量显著低于WT(P<0.05),表明过表达ZjNAC3基因降低了拟南芥植株的耐盐性。分析认为ZjNAC3通过减弱渗透调节、增加细胞受损和降低将Na+隔离到液泡的作用,从而使得转基因拟南芥植株表现出盐敏感的性状。本研究揭示了ZjNAC3是一个负调控植物耐盐性的重要基因,为之后探究NAC转录因子调控日本结缕草的耐盐性及其机理奠定了基础。

小麦TaNAM三个部分同源基因的特征及其对渗透胁迫的响应

干旱是限制小麦持续高产稳产的主要逆境因子,本研究克隆了受干旱胁迫诱导的小麦NAC转录因子的3个部分同源基因Ta NAM-5AL、TaNAM-5BL和Ta NAM-5DL,结果表明,在cDNA编码区A、B和D基因组间存在SNP和InDel变异,但内含子和启动子区域基因组之间差异较大。蛋白特性分析显示,其均有典型NAC结构域,其中A、C、D亚结构域高度保守,而B和E亚结构域保守性不强。蛋白质高级结构分析显示,TaNAM蛋白可形成由2个α螺旋和9个β折叠组成的半桶状结构,2个TaNAM单体通过N端互作形成1个夹子状二聚体。时空表达特性分析表明,3个部分同源基因在根系中表达量最高,叶片和茎干中的表达量较低。在小麦籽粒萌发过程中,随着胚及幼芽的萌发TaNAM-5DL的表达量逐渐上调;在籽粒形成过程中,TaNAM-5BL在5 DAP时表达量很高,而TaNAM-5AL和TaNAM-5DL在30 DAP时表达量最高。在叶片和根系中,3个部分同源基因均受水分胁迫的诱导而上调表达,且根系中的响应速度显著快于叶片。在盐胁迫条件下,叶片中3个部分同源基因均受胁迫诱导而上调表达,而根系中仅TaNAM-5AL受胁迫诱导而持续上调表达。进一步分析发现,3个部分同源基因属于依赖ABA的调控通路。上述结果表明TaNAM的3个部分同源基因在胁迫和发育调控中发挥着不同的功能。