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为了探讨14-3-3基因在小麦逆境胁迫应答中的调控作用,利用RACE技术克隆了两个包含完整编码框的14-3-3基因(命名为Ta14R1和Ta14R2),其中Ta14R1 cDNA长999 bp,编码262个氨基酸,而Ta14R2 cDNA长897 bp,编码261个氨基酸。Ta14R1/Ta14R2-GFP融合载体瞬时表达结果显示,Ta14R1和Ta14R2蛋白均定位于细胞质和细胞膜,但不在叶绿体中。荧光定量PCR分析表明,Ta14R1和Ta14R2均在萌发1 d的胚芽鞘中表达量最高;在高温、低温、模拟干旱和ABA处理下,两个基因在小麦的根和叶中都受胁迫诱导而且显著上调表达,推测这两个14-3-3基因通过依赖ABA的非生物胁迫响应途径发挥作用,可能参与了小麦中高温、低温和干旱胁迫的耐受调节过程。  相似文献   

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Intra-specific variations in nonstructural carbohydrates and free proline were determined in leaves, apices, roots, and maturing seeds of two salt-tolerant cultivars (CR and Kharchia-65) and one salt-sensitive cv. Ghods of spring wheat (Triticum aestivum L.) grown in sand culture at various levels of salinity (0, 100, 200, and 300 mM NaCl and CaCl2 at 5 : 1 molar ratio) under controlled environmental conditions. The levels of leaf, apex, and root ethanol-soluble carbohydrates, fructans, starch, and proline increased in line with elevating level of salinity in all three cultivars under investigation. The contents of proline, soluble and insoluble carbohydrates in the apex increased to levels exceeding those in the leaves and roots. Soluble carbohydrate content of salt-sensitive cv. Ghods was higher in the leaves, apices, and roots and lower in the maturing seeds than in the other cultivars at all levels of salinity except at 300 mM. The results show considerable variation in the amount of soluble, insoluble sugars, and proline among plant tissues and wheat genotypes in response to salinity. Higher soluble carbohydrates and fructan in leaves, roots and maturing seeds of stressed plants indicate that their accumulation may help plant to tolerate salinity. Salt-sensitive cv. Ghods accumulated less soluble sugars in the maturing seeds and higher soluble sugars in the apices, which might be used as an indicator in screening wheat genotypes for salinity tolerance.  相似文献   

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为明确小麦春化基因的时空表达特性,以中国春和洛旱2号小麦品种为试验材料,利用半定量RT-PCR技术,分析了3个春化基因VERNALIZATION1(VRN1)、VRN2和VRN3的时空表达特性。结果表明,VRN1在中国春的三叶期叶片和根、灌浆期的茎秆和旗叶、花药、胚珠和发育的种子中均有不同程度的表达。在开花前,表达水平呈上升趋势,而花后呈降低的趋势,在干种子和萌发种子的胚芽中没有检测到表达;在洛旱2号中,除了在三叶期的叶片和根中没有检测到表达外,VRN1的表达特性与中国春有相同的趋势。VRN2只在三叶期的叶片和萌发种子的胚芽中表达,在其他检测的组织中没有表达;VRN3的表达与VRN1的时空表达特性相似,但在根中未检测到表达。这一结果为进一步分析普通小麦品种春化发育的分子调控机理提供了重要信息。  相似文献   

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在土壤盐胁迫下,小麦根系吸收水分和营养物质的功能受到抑制,从而影响植株的经济产量。因而,开展小麦耐盐育种,提高根系耐盐性是重要途径之一。使耐盐基因在根系中优势表达,并且在盐胁迫下增强表达,将显著提高根系耐盐性。而克隆和鉴定具有双重控制功能的启动子,是实现耐盐基因精准调控的基础。鉴于此,本研究利用Genevestigator在线生物信息学分析软件,筛选到425个盐诱导根系优势表达的探针,并从中选出2个候选探针,用于启动子验证。以1周龄小麦品种中国春的幼苗为材料,将其根系置于200 mmol/L的NaCl溶液中,分别于0 h、0.5 h、1 h、2 h、4 h和8 h进行根系取样,用于表达模式分析。结果表明,Ta.5463.1.A1_at探针的基因表达模式更符合生物信息学预测的结果,受盐胁迫诱导表达显著上调,且基因优势表达于根系。为进一步验证相应基因启动子的功能,对此探针对应的启动子区进行了克隆,并连接到启动子验证载体中,遗传转化获得转基因拟南芥植株。盐诱导后GUS染色的实验结果表明,该启动子使GUS报告基因在盐处理下表达量显著提高,且主要在根系表达。本研究成功克隆了耐盐遗传改良专用启动子,为小麦分子抗逆育种提供了优异资源。  相似文献   

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Phospholipid metabolism is involved in plant responses to drought and salinity stress. To investigate the role of phospholipase D (PLD) and its product phosphatidic acid (PtdOH) in stress signalling, we isolated a novel PLD cDNA, designated AtPLDdelta, by screening a cDNA library prepared from dehydrated Arabidopsis thaliana. The AtPLDdelta protein, of 868 amino acids, has a putative catalytic domain and a C2 domain that is involved in Ca2+/phospholipid binding. The AtPLDdelta mRNA accumulated in response to dehydration and high salt stress. Histochemical analysis showed that the AtPLDdelta gene is strongly expressed in the vascular tissues of cotyledons and leaves under dehydration stress conditions. Under normal growth conditions, AtPLDdelta was expressed in roots, leaves, stems and flowers but not in siliques. We showed that dehydration stimulates the accumulation of PtdOH. The accumulation of PtdOH in response to dehydration was significantly suppressed in AtPLDdelta antisense transgenic plants. These results suggest that AtPLDdelta may be involved in PtdOH accumulation in the dehydration stress response.  相似文献   

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