地黄RgMYB10基因的克隆与表达分析

MYB转录因子是植物最大的转录因子家族之一,广泛参与植物的生长发育、逆境胁迫和次生代谢产物积累。该研究通过同源比对和功能注释,在地黄(Rehmannia glutinosa)转录组中筛选出MYB的转录本,设计特异性引物对MYB基因的cDNA序列进行PCR扩增,用水杨酸(SA)、Ag⁺、茉莉酸甲酯(MeJA)和腐胺(Put)这4种诱导子处理地黄毛状根,并通过实时荧光定量PCR(qRT-PCR)检测候选MYB基因的表达。结果显示:(1)成功克隆到1个地黄MYB基因,命名为RgMYB10;该基因编码247个氨基酸残基,蛋白质相对分子质量28.48 kD,等电点为5.14,属于R2R3-MYB转录因子。(2)qRT-PCR结果显示,RgMYB10在须根中表达量最高,其次为茎,块根中的表达量最低。(3)RgMYB10在MeJA处理后的毛状根中显著上调表达,为特异响应MeJA诱导的基因,推测RgMYB10基因可能是响应MeJA参与地黄毛蕊花糖苷生物合成的关键转录因子。研究表明,地黄MYB10基因可能参与地黄毛蕊花糖苷的生物合成,为进一步研究MYB10基因在地黄毛蕊花糖苷合成中...     

Gene regulation patterns in triterpene biosynthetic pathway driven by overexpression of squalene synthase and methyl jasmonate elicitation in <Emphasis Type="Italic">Bupleurum falcatum</Emphasis>

The root of Bupleurum falcatum L. (Apiaceae) has long been one of the most important traditional herbal medicines in Asian countries. A group of triterpene saponins (saikosaponins) are the major constituents of this plant. Squalene synthase (SS) may play a regulatory role in directing triterpene intermediates and sterol pathways. Here, we investigated the regulatory role of the squalene synthase (BfSS1) gene in the biosynthesis of phytosterol and triterpene in B. falcatum. BfSS1 mRNA accumulated ubiquitously in plant organs and markedly increased in roots after treatment with methyl jasmonate (MeJA), ABA and ethephon. Transgenic B. falcatum constructs overexpressing BfSS1 in the sense and antisense orientations were assembled using the Agrobacterium-mediated method. Transgenic roots overexpressing BfSS1 in the sense orientation resulted in enhanced production of both phytosterol and saikosaponins. Overexpression of the BfSS1 gene in the sense orientation increased the mRNA accumulation of downstream genes such as squalene epoxidase and cycloartenol synthase but unexpectedly decreased the mRNA levels of β-amyrin synthase (β-AS), a triterpene synthase mRNA. MeJA treatment of wild-type roots strongly stimulated β-AS mRNA accumulation and saikosaponin production but suppressed phytosterol production. MeJA treatment of transgenic roots overexpressing BfSS1 in the sense orientation failed to stimulate β-AS mRNA accumulation but still enhanced saikosaponin and phytosterol production. These results indicate that overexpression of BfSS1 in B. falcatum regulates more powerfully the downstream genes than elicitor (MeJA) treatment in triterpene and phytosterol biosynthesis.     

Enhancement of root hydraulic conductivity by methyl jasmonate and the role of calcium and abscisic acid in this process

The role of jasmonic acid in the induction of stomatal closure is well known. However, its role in regulating root hydraulic conductivity (L) has not yet been explored. The objectives of the present research were to evaluate how JA regulates L and how calcium and abscisic acid (ABA) could be involved in such regulation. We found that exogenous methyl jasmonate (MeJA) increased L of Phaseolus vulgaris, Solanum lycopersicum and Arabidopsis thaliana roots. Tomato plants defective in JA biosynthesis had lower values of L than wild‐type plants, and that L was restored by addition of MeJA. The increase of L by MeJA was accompanied by an increase of the phosphorylation state of the aquaporin PIP2. We observed that MeJA addition increased the concentration of cytosolic calcium and that calcium channel blockers inhibited the rise of L caused by MeJA. Treatment with fluoridone, an inhibitor of ABA biosynthesis, partially inhibited the increase of L caused by MeJA, and tomato plants defective in ABA biosynthesis increased their L after application of MeJA. It is concluded that JA enhances L and that this enhancement is linked to calcium and ABA dependent and independent signalling pathways.     

走马胎三萜皂苷合成相关基因表达分析北大核心CSCD

走马胎是我国华南地区重要的民族药物,其体内的次生代谢物三萜皂苷具有多种药用功效。为了解三萜皂苷含量变化以及生物合成通路相关基因的调控规律,该研究对走马胎在不同组织部位以及不同外源激素处理下所呈现的表达模式进行了比较分析。结果表明:(1)三萜皂苷含量在不同组织部位间和外源激素处理下均存在显著差异,具体表现为根部组织的含量显著高于叶部组织的,而用外源水杨酸(SA)与茉莉酸甲酯(MeJA)喷施处理后其含量低于对照组(CK)。(2)对这两个差异比较组进行qRT-PCR分析结果显示,相比叶部组织,在根部组织中AkPMD、AkHDS、AkSS、AkSM以及与三萜皂苷合成相关的走马胎P450家族、UGT家族基因皆有不同程度的上调;外源SA与MeJA处理会导致合成途径上游的AkPMD、AkHDS、AkSS、AkSM上调,而下游的P450家族、UGT家族基因则有所下调。因此,通过对不同组织部位和不同外源激素处理这两种差异表达模式的比较研究,可推测在这两种表达模式下走马胎三萜皂苷的合成更多地与下游特异化修饰的酶相关。