84 resultados para chorismate synthase
Resumo:
Thymidylate synthase (TS), which catalyzes the de novo synthesis of dUMP, is an important target for cancer therapy. In this report, the effects of 5-fluorouracil (5-FU) and ZD1694 on the regulation of TS gene expression were evaluated in zebrafish embryos. Our results revealed that the expression of TS was increased by about six-fold when embryos were treated with 1.0 mu M 5-FU and there was a greater than 10-fold increase in the TS protein level after treatment with 0.4 mu M ZD1694. Northern blot analysis confirmed that expression of TS mRNA was identical in treated or untreated embryos. Gel shift and immunoprecipitation assays revealed that zebrafish TS was specifically bound with its cognate mRNA in vitro and in vivo. We identified a 20 nt RNA sequence, TS:N20, localized to the 5'-UTR of TS mRNA, which corresponded to nt 13-32; TS:N20 bound to the TS protein with an affinity similar to that of the full-length TS mRNA. The MFold program predicted that TS:N20 formed a stable stem-loop structure similar to that of the cis-acting element found in human TS mRNA. Variant RNAs with either a deletion or mutation in the core motif of TS:N20 were unable to bind to the TS protein. In vitro translation experiments, using the rabbit lysate system, confirmed that zebrafish TS mRNA translation was significantly repressed when an excess amount of TS protein was included in the system. Additionally, a TS stability experiment confirmed that treatment of zebrafish embryos with 5-FU could increase the TS stability significantly, and the half life of TS protein was about 2.7 times longer than in untreated embryos. Our study revealed a structural requirement for the interaction of TS RNA with TS protein. These findings also demonstrated that the increase in TS protein induced by 5-FU occurs at the post-transcriptional level and that increased stability and translation efficiency both contributed to the increase in TS protein levels induced by TS inhibitors.
Resumo:
Thymidylate synthase (TS), which catalyzes the de novo synthesis of dUMP, is an important target for cancer therapy. In this report, the effects of 5-fluorouracil (5-FU) and ZD1694 on the regulation of TS gene expression were evaluated in zebrafish embryos. Our results revealed that the expression of TS was increased by about six-fold when embryos were treated with 1.0 mu M 5-FU and there was a greater than 10-fold increase in the TS protein level after treatment with 0.4 mu M ZD1694. Northern blot analysis confirmed that expression of TS mRNA was identical in treated or untreated embryos. Gel shift and immunoprecipitation assays revealed that zebrafish TS was specifically bound with its cognate mRNA in vitro and in vivo. We identified a 20 nt RNA sequence, TS:N20, localized to the 5'-UTR of TS mRNA, which corresponded to nt 13-32; TS:N20 bound to the TS protein with an affinity similar to that of the full-length TS mRNA. The MFold program predicted that TS:N20 formed a stable stem-loop structure similar to that of the cis-acting element found in human TS mRNA. Variant RNAs with either a deletion or mutation in the core motif of TS:N20 were unable to bind to the TS protein. In vitro translation experiments, using the rabbit lysate system, confirmed that zebrafish TS mRNA translation was significantly repressed when an excess amount of TS protein was included in the system. Additionally, a TS stability experiment confirmed that treatment of zebrafish embryos with 5-FU could increase the TS stability significantly, and the half life of TS protein was about 2.7 times longer than in untreated embryos. Our study revealed a structural requirement for the interaction of TS RNA with TS protein. These findings also demonstrated that the increase in TS protein induced by 5-FU occurs at the post-transcriptional level and that increased stability and translation efficiency both contributed to the increase in TS protein levels induced by TS inhibitors.
Resumo:
Using in vitro selection method to isolate nucleic acids, peptides and proteins has been studied intensively in recent years. In vitro mRNA display is a new and effective technique for peptides selection, and the rationale of this technique is that a synthetic mRNA with puromycin could covalently link with the protein that it encodes, thus an mRNA-protein fusion is formed. This approach has been used in identification of many functional peptides. The peptides binding with thymidylate synthase RNA were isolated using mRNA display technique from a large peptide library (>10(13) different sequences). The selection scheme was constructed, and the experimental conditions, including library synthesis, formation of RNA-peptide fusion and RNA immobilization were optimized. Eight cycles have been processed and the results confirmed that the selected peptides could bind with thymidylate synthase mRNA specifically. Compared the amino acid sequences of the selected peptides with those from the initial random library, the basic and aromatic residues in selected peptides were enriched significantly, suggesting these peptide regions may be important in the peptide-TS mRNA interaction. As a novel in vitro selection approach, mRNA display technique would be developed as a powerful tool for isolation of functional peptides and proteins that could interact with immobilized targets with high affinity and specificity.
Resumo:
Thymidylate synthase (TS), an essential enzyme for catalyzing the biosynthesis of thymidylate, is a critical therapeutic target in cancer therapy. Recent studies have shown that TS functions as an RNA-binding protein by interacting with two different sequences on its own mRNA, thus, repressing translational efficiency. In this study, peptides binding TS RNA with high affinity were isolated using mRNA display from a large peptide library (>10(13) different sequences). The randomized library was subjected up to twelve rounds of in vitro selection and amplification. Comparing the amino acid composition of the selected peptides (12th round, R12) with those from the initial random library (round zero, R0), the basic and aromatic residues in the selected peptides were enriched significantly, suggesting that these peptide regions might be important in the peptide-TS mRNA interaction. Categorizing the amino acids at each random position based on their physicochemical properties and comparing the distributions with those of the initial random pool, an obvious basic charge characteristic was found at positions 1, 12, 17 and 18, suggesting that basic side chains participate in RNA binding. Secondary structure prediction showed that the selected peptides of R12 pool represented a helical propensity compared with R0 pool, and the regions were rich in basic residues. The electrophoretic gel mobility shift and in vitro translation assays showed that the peptides selected using mRNA display could bind TS RNA specifically and inhibit the translation of TS mRNA. Our results suggested that the identified peptides could be used as new TS inhibitors and developed to a novel class of anticancer agents.
Resumo:
The thymidylate synthase (TS), an important target for many anticancer drugs, has been cloned from different species. But the cDNA property and function of TS in zebrafish are not well documented. In order to use zebrafish as an animal model for screening novel anticancer agents, we isolated TS cDNA from zebrafish and compared its sequence with those from other species. The open reading frame (ORF) of zebrafish TS cDNA sequence was 954 nucleotides, encoding a 318-amino acid protein with a calculated molecular mass of 36.15 kDa. The deduced amino acid sequence of zebrafish TS was similar to those from other organisms, including rat, mouse and humans. The zebrafish TS protein was expressed in Escherichia coli and purified to homogeneity. The purified zebrafish TS showed maximal activity at 28 degrees C with similar K-m value to human TS. Western immunoblot assay confirmed that TS was expressed in all the developmental stages of zebrafish with a high level of expression at the 1-4 cell stages. To study the function of TS in zebrafish embryo development, a short hairpin RNA (shRNA) expression vector, pSilencer 4.1-CMV/TS, was constructed which targeted the protein-coding region of zebrafish TS mRNA. Significant change in the development of tail and epiboly was found in zebrafish embryos microinjected pSilencer4.1-CMV/TS siRNA expression vector.
Resumo:
The F1F0 ATP synthase has been purified from the hyperthermophilic eubacterium Aquifex aeolicus and characterized. Its subunits have been identified by MALDI-mass spectrometry through peptide mass fingerprinting and MS/MS. It contains the canonical subunits alpha, beta, gamma, delta and epsilon of F-1 and subunits a and c of F-0. Two versions of the b subunit were found, which show a low sequence homology to each other. Most likely they form a heterodimer. An electron microscopic single particle analysis revealed clear structural details, including two stalks connecting F-1 and F-0. In several orientations the central stalk appears to be tilted and/or kinked. It is unclear whether there is a direct connection between the peripheral stalk and the 6 subunit. (c) 2006 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.
Resumo:
Thymidylate synthase (TS), an essential enzyme for DNA de novo synthesis, is a critical therapeutic target in cancer therapy. Previous study has shown that TS was able to bind to its own mRNA in human and E.coli, resulting in translational repression. Zebrafish is the best animal model for vertebrate study. In order to study the regulatory mechanism of zebrafish TS, the enzyme were expressed in E. coli BL21 (DE3) and it was purified to homogeneity. Electrophoretic mobility shift assay (EMSA) was used to detect the interaction of zebrafish TS protein and its own TS transcript in vitro and the results showed that zebrafish TS could bound with its own mRNA specifically. Further study revealed that zebrafish TS was able to interact with its own mRNA in vivo using immunoprecipitation : RT-PCR technique. The results provide evidence that zebrafish may be developed as an useful model for studying the anti-metabolism agents.
Resumo:
The nitric oxide synthase (NOS) activity in the haemocytes of shrimps Fenneropenaeus chinensis (Osbeck) and Marsupenaeus japonicus (Bate) was Studied after white spot syndrome virus (WSSV) infection to determine its characteristics in response to virus infection. First, the NOS activity in haemocytes of shrimps was determined by the means of NBT reduction and changes in cell conformation. And the variations of NOS activity in shrimps after challenge with WSSV intramuscularly were evaluated through the analysis Of L-citrulline and total nitrite/nitrate (both as NO derivates) concentrations. The result showed that NOS activity in the haemocytes of F chinensis increased slightly from 0 to 12 h postchallenge, indicated by the variations Of L-Citrulline (from 11.15 +/- 0.10 to 12.08 +/- 0.64 mu M) and total nitrite/nitrate concentrations (from 10.45 +/- 0.65 to 12.67 +/- 0.52 mu M). Then it decreased sharply till the end of the experiment (84 h postchallenge), the concentrations Of L-Citrulline and total nitrite/nitrate at 84 It were 1.58 +/- 0.24 and 2.69 +/- 0.70 mu M, respectively. The LPS-stimulated NOS activity kept constant during the experiment. However, in M. japonicus, the NOS activity kept increasing during the first 72 It postchallenge, the concentrations Of L-Citrulline and total nitrite/nitrate increased from 7.82 +/- 0.77 at 0 h to 10.79 +/- 0.50 mu M at 72 h, and from 8.98 +/- 0.43 at 0 h to 11.20 +/- 0.37 mu M at 72 h, respectively. Then it decreased till the end of the experiment (216 h postchallenge), and the concentrations of L-Citrulline and total nitrite/nitrate at 216 h were 5.66 +/- 0.27 and 4.68 +/- 0.16 mu M, respectively. More importantly, an apparent increase of I-PS-stimulated NOS activity was observed in M japonicus at 48 h postchallenge, which was about 4 times higher than that in the control group of health shrimps. In correspondence with the difference of NOS activity between the two species of shrimps, the Cumulative mortalities of the shrimps were also different. All shrimps of F. chinensis in the mortality experiment died in 66 h, much more quickly than M. japonicus, Whose accumulative mortality reached 100% after 240 h. Data here reported let us hypothesize that NOS activity in the haemocytes of shrimps F chinensis and M. japonicus responses to WSSV infection differently, and this might be one of the reasons for the different susceptibility of F chinensis and M. japonicus to WSSV infection. (c) 2005 Elsevier Inc. All rights reserved.
Resumo:
利用3’和5' RACE、Uneven PCR等技术成功地从胡萝卜肉质根中分离了茄红素β-环化酶、茄红素ε.环化酶和辣椒红/辣椒玉红素合酶cDNA以及茄红素β一环化酶基因5’端上游的部分序列,并研究了它们在胡萝卜肉质根中的表达模式,对胡萝卜中类胡萝卜素代谢和积累的分子机制进行了探讨。 胡萝卜茄红素β--环化酶cDNA(DCLYC1)长2089bp,包含一个1515bp的开放阅读框架,所编码蛋白长505个氨基酸,其一级结构与番茄、烟草和辣椒等植物的茄红素β--环化酶高度同源。与农杆菌和夏噬孢欧文氏菌等微生物的茄红素环化酶相似性较差,但相互间有3个短小的同源区,且蛋白疏水模式也十分相似。茄红素β--环化酶在胡萝卜肉质根中的表达受品种和组织特异性的调控。在紫色的富含茄红素的“齐头红”胡萝卜肉质根中该基因的表达受到了强烈的抑制,相反,在橙色的富含β--和α--胡萝卜素的“CA201”胡萝卜肉质根中表达十分活跃。茄红素β--环化酶和八氢番茄红素合酶基因的表达在肉质根的韧皮部和木质部之间存在差异,在韧皮部中的表达强于木质部。类胡萝卜素生物合成基因的差异表达是造成不同胡萝卜品种和组织中积累的类胡萝卜素的种类和含量不同的原因。 对紫色品种和橙色品种的茄红素β--环化酶基因组DNA的PCR分析表明两者的基因组中均存在茄红素β一环化酶基因。为了探明茄红素β--环化酶基因在不同胡萝卜品种中差异表达的原因,利用Uneven pCR从胡萝卜基因组DNA中分离克隆了茄红素β--环化酶基因5’端上游部分序列。该DNA片段长1.7kb,3’端286bp区域与DCLYC1的5’端序列交叉重叠,在GenBank中没有找到相似的序列。在1294bp-1336bp位置串连着3个TATA盒,结构十分特殊,在TATA盒上游大约700bβ位置有2个CAAT盒。瞬间表达实验证明它具有启动子活性,可以指导GUS基因在胡萝卜肉质根、叶片和茎等组织中表达。然而,其表达模式却与茄红素B.环化酶基因的Northern杂交结果不同,主要在韧皮部和木质部交界的分生组织中表达,同时在紫色胡萝卜肉质根中其表达并没有受到抑制。这一片段可能还不是完整的胡萝卜茄红素β--环化酶基因启动子,缺少了调控基因进行品种和组织特异性表达的部分序列元件。因此,分离更长的胡萝卜茄红素环化酶基因5’端上游序列,将有助于揭示茄红素β一环化酶基因呈品种和组织特异性表达的分子机制。 所分离的胡萝卜辣椒红/辣椒玉红素合酶cDNA (DCCCS)长1744bp,包含一个长1476bp的开放阅读框架,所编码蛋白长492个氨基酸。与辣椒和柑桔CCS的氨基酸序列同源性分别为为76.6%和75.3%,与DCLYC1等其它植物茄红素β--环化酶的氨基酸序列同源性为63.9-67.4%。DCCCS的表达模式在两个不同颜色的品种之间十分相似,在肉质根韧皮部中强烈表达,而在木质部中表达明显受到了抑制。由于CCS与LYC-B高度同源,有人认为CCS可能具有茄红素环化酶活性,然而本研究结果表明,DCCCS虽然在紫色的齐头红胡萝卜肉质根韧皮部中强烈表达,却没有影响细胞中积累大量的茄红素,因此DCCCS即使具有茄红素环化酶作用,其活性也是极低的。 分离到的胡萝卜茄红素ε--环化酶cDNA片段(DCL YC-E)长1264bp,包含了完整的3’端,5’端尚不完整。按照引物LYCP1上的阅读框架进行翻译得到长385个氨基酸的肽链与莴苣、番茄和拟南芥LYC-E肽链相应区域的氨基酸序列高度同源,达80.5%以上,其中与莴苣茄红素ε--环化酶最为接近。与拟南芥茄红素ε--环化酶第448位基团和莴苣茄红素ε--环化酶第457位基团对应的氨基酸基团为H。这一基团是一个分子开关,决定茄红素ε--环化酶是催化茄红素的一端还是两端形成ε--环,因此,胡萝卜茄红素ε--环化酶可能与莴苣茄红素ε--环化酶具有相同的功能,即可以催化对称的线性茄红素的两端均形成ε--环,生成双ε--环胡萝卜素。DCLYC-E在胡萝卜肉质根中表达模式与DCLYCI不同,在紫色品种齐头红肉质根韧皮部中表达十分强烈,没有受到抑制,而且明显强于木质部;在橙色品种CA201中DCLYCE的表达模式与DCLYCI相似,韧皮部中表达强,而木质部中相对弱得多。DCL YC-E的表达模式在所测试品种间没有差异。在富含茄红素的齐头红胡萝卜肉质根中DCL YC-E强烈表达,可见它并没有将茄红素大量转化为双ε--环胡萝卜素,因此该酶的功能和活性有待进一步研究。
Resumo:
聚-β-羟基链烷酸(PHA)是许多微生物作为碳源、能源的一类贮藏性聚酯,具有广泛的应用价值。该聚酯可被微生物完全降解且有与塑料相似的性质,因而研究并提高PHA在植物中的合成为解决环境污染提供了新的解决途径。 聚-β-羟基于酸酯(PHB)是研究的最早、研究的最清楚的一种PHA。用聚合酶链式反应扩增并克隆了真养产碱杆菌(Alcaligenes eutrophus)中合成PHB的一个关键酶——3-酮硫裂解酶基因phbA。DNA序列分析表明所克隆的基因与国外报道序列同源性很高,只有一个碱基对的区别。为了检测该基因的功能及导肽的定位效率,构建了带有导肽基因的组成型表达载体,由根癌农杆菌介导转化烟草(Nicotiana tabacum cv. Wisconsin 38)得到转基因植株。蛋白质电泳结果表明导肽可以将外源蛋白定位于质体,phbA基因能翻译成相应大小的蛋白。酶活性分析证实了转基因烟草中phbA编码的3-酮硫裂解酶可以催化乙酰-CoA合成乙酰乙酰-CoA。 将携有导肽序列的phbC(编码PHB合酶)和phbB(编码乙酰乙酰-CoA还原酶)连入pBIB-HYG得到组成型表达载体pZCB,用冻融法转入根癌农杆菌,介导转化烟草。烟草为已获得的具有卡那霉素抗性整合并表达phbA的转基因烟草。通过二次转化将携有潮霉素抗性的phbB基因和phbC基因导入已整合phbA的烟草,各基因均由质体导肽控制,最后得到整合PHB合成的三个酶基因的转基因烟草。转基因烟草经PCR、PCR-Southern检测,初步确定整合phbB和phbC烟草植株。以气相色谱初步分析,转基因烟草中PHB的含量可达鲜重的0.233%。 结果表明phbB和phbC基因可以在真核表达系统中编码相应的蛋白。通过色素分析、荧光动力学等手段分析了PHB在叶绿体中的累积对其功能的影响。 为了提高底物乙酰-CoA的供应能力及减少惰性聚酯对植物体的伤害,分离了种子特异性启动子和质体导肽序列,利用忆经克隆的合成PHB的三个关键酶基因,通过一系列DNA重组,分别构建了含有种子特异性启动子的嵌合phbC、phbB的二价表达载体pSCB及嵌合phbC、phbA、phbB的三价表达载体pSCAB,并由导肽将基因表达产物定位于质体。经根癌农杆菌介导转化油菜(Brassica napus L.) H165,获得转基因油菜植株,并进行了PCR、Southern blot及RT-PCR-DNA杂交等分检测。结果表明,三基因已经分别整合到相应的转基因油菜中,并已在转录水平表达。同时转化了油菜不育系、恢复系和保持系,获得批量转化株,并移入温室栽培。
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日益加剧的重金属污染已经危害到了全球的生态环境以及人类健康。在分子水平上阐明植物中的重金属抗性机制并应用于环境修复和绿色农业是植物科学和环境科学以及农业科学的交叉点和新的生长点。为了了解植物重金属抗性的分子机制,我们的研究主要是从重金属抗性植物材料大蒜(Allium sativumL.)和绊根草(Cynodon dactylon)中分离重金属抗性相关基因,并研究它们在重金属抗性机制中的功能。 在高等植物中有迹象表明,一种富含半胱氨酸的低分子量蛋白.类金属硫蛋白 (Metallothioneins Like,MTs Like)和一类具有Y-(Glu-Cys) n-Gly特殊结构的多肽一植物络合素(Phytochelatins,PCs)在重金属抗性机制中占有重要地位。然而人们对于同一种植物中这两种重金属结合肽作用的相互关系还缺乏了解,同时对于MT Like基因以及PCs合酶基因在同一种植物中的表达模式如金属离子专一性、时空表达特点等,还投有文献报道,因此本文将首先以这两个基因为切入点进行研究。 本研究采用RACE的方法,从大蒜中分离得到了类金属硫蛋白(MT-Like)的cDNA序列(GenBank Accession No.AY050510),PCR和SoutheLrn Blot分析表明,大蒜基因组中不仅存在类金属硫蛋白基因,而且可能以基因家族的形式存在。对获得的MT Like cDNA进行的序列分析及同源性分析表明,大蒜MT Like cDNA含有一个完整的开放阅读框架,编码73个氨基酸,其中12个为半胱氨酸,占氨基酸总数的1 6.4%,并与其他植物如水稻、小麦、紫羊茅草中的类金属硫蛋白基因同源性较高,其中最高达89%。对该基因编码的氨基酸序列和结构分析表明在N-端、c-端结构域中分别含有3个典型的金属硫蛋白的结构模式Cys-Xaa-Cys,属于典型的Type-1类金属硫蛋白。这些Cys-Xaa-Cys特征结构表明大蒜MT Like基因编码的蛋白可以结合二价金属离子。重金属胁迫下大蒜根中MT Like基因在转录水平的表达检测表明,MT Like基因的表达受重金属离子Cu2+、Cd2+的诱导,暗示MT Like基因在大蒜对重金属的抗性中有重要作用。此外,用能谱电镜技术研究大蒜中重金属的积累与分布,以及用组织原位杂交技术分析MT Like基因的表达定位与重金属的积累、转运的关系已在进行之中。 植物络合素也是富含巯基的多肽化合物,在重金属抗性中起重要作用。由植物络合素结构中存在的Y一酰胺键或β-Ala可知PCs不是基因表达的直接产物,而是以GSH为前体的酶促反应产物。目前已知y一谷氨酰半胱氨酸二肽转肽酶(简称为PCs合酶,phytochelatin synthase,PCS)是PCs合成途径的关键酶,编码这一关键酶的基因目前已在小麦、拟南芥菜和裂殖酵母中克隆。由于这一基因在不同物种中的保守性较低,其克隆较困难。本研究通过设计植物络合素台酶基因简并引物,从大蒜中扩增得到了345bp的cDNA序列。序列分析和推测的氨基酸序列同源性比较表明,此序列的翻译产物与已知的植物络合素合酶同源性最高,此cDNA序列应为大蒜植物络合素合酶基因的部分cDNA序列(GenBank Accession No.AF384110)。目前大蒜植物络台素合酶基因的全长序列的扩增,以及这两种与重金属抗性有关的基因(MT Like,PCS)的表达模式仍在研究中。 本文还尝试了利用酵母重金属敏感突变株M379/8功能互补的方法从重金属抗性植物绊根革中分离新的重金属抗性相关基因。构建了用于转化的酵母质粒表达文库,探索了酵母转化体系建立的条件。曾尝试多种转化方法,并对其中的条件进行了优化改进。下一步的工作将集中在合适的酵母突变体的筛选或穿梭表达载体的选择标记基因替换上
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第一部分:青蒿开花与青蒿素生物合成相关性的研究 青蒿素是从中药青蒿中分离出的倍半萜内酯化合物,目前是世界上唯一有效的治疗脑型疟疾和抗氯喹恶性疟疾的药物。青蒿植株中青蒿素含量在开花期最高,但是目前尚不清楚开花与青蒿素生物合成的关系。为此,我们用光周期(短日照)诱导青蒿提前开花,不仅同时获得了开花与不开花的青蒿植株,而且还成功地在同一植株上诱导部分分枝开花,另一部分分枝保持营养生长状态。这一实验体系为研究青蒿开花与青蒿素生物合成的相关性奠定了基础。实验结果表明,开花与不开花青蒿植株青蒿素含量有明显差异。开花植株的青蒿素含量在前2周内逐渐提高,第三周(开花期)达到最高,并保持一周左右,在随后的2周内下降。青蒿植株开花后,叶片便开始老化变黄,逐渐死亡。未开花青蒿植株的青蒿素含量动态在前三周内与开花植株类似,但是这种高青蒿素含量状态能保持较长时间,至少在随后的2周内没有下降。未开花植株的叶片依然保持绿色。这一结果表明,开花不是导致青蒿素含量提高的直接原因。 扫描电镜观察结果表明,幼嫩叶片上的毛状腺体( trichrome)结构是完整的,而在老化的叶片上,则观察到了相当比例(40-50%)破损的腺体。这可能是导致青蒿素含量下降的直接原因。 不同生态型青蒿对光周期的反应是不同的。在北京地区,本地青蒿在8月初便开始开花,而来自四川武陵的青蒿则要到9月份才能开花。根据这一特性,采用“南蒿北栽”的方法,能够使青蒿保持较长时间的营养生长状态,延长适于采收的时间。 第二部分:金丝桃和百金花二苯甲酮合酶基因的克隆,异源表达及功能分析 植物次生代谢物山屯酮( Xanthones)仅存在于龙胆科和藤黄科植物中。它们具有抑制单胺氧化酶,细胞毒素及抗肿瘤活性。 含有1 3个碳原子的二苯甲酮是山屯酮生物合成的中间产物,是由二苯甲酮合酶催化合成的,这一反应是山屯酮生物合成的关键步骤。二苯甲酮合酶已经在金丝桃和百金花细胞悬浮培养系统中检测到,并进行了细致的生化水平上的研究。本研究是在上述研究的基础上,进一步克隆该酶的基因,并进行异源表达及功能分析工作,以便更好地了解和调控山屯酮的生物合成。 用PCR和RT-PCR技术,从金丝桃cDNA文库和逆转录产物中分别克隆到一个基因HBPS1和HBPS2,从百金花cDNA文库中克隆到一个基因CBPS1。HBPS1含有1402个碱基,其开放阅读框架编码390个氨基酸,分子量为42.7 kDa,等电点为6.55。HBPS2含有1398个碱基,其开放阅读框架编码395个氨基酸,分子量为42.8 kDa,等电点为5.78。CBPS1含有1383个碱基,其开放阅读框架编码389个氨基酸,分子量为42.7 kDa,等电点为7.88。与GenBank中序列同源性比较结果表明:在氨基酸水平上,HBPS1与茶(Camellia sinensis)查尔酮合酶的同源性高达92%,HBPS2与萝卜(Raphanus sativus)查尔酮合酶的同源性为64%,CBPS1与茶(Camellia sinensis)查尔酮合酶的同源性为71%。HBPS1与HBPS2的同源性仅为62%。 将三个新克隆的基因的ORF整合到载体pGEX-G上的谷胱甘肽还原酶S基因下游,构建成转化质粒,并在大肠杆菌中诱导表达。结果表明,这三个基因的ORF片段均能被表达成约68 kDa的产物,这与期望的结果一致。 活性检测结果表明,HBPS1是查尔酮合成酶,其底物为香豆酰辅酶A和丙二酸单酰辅酶A,对这两种底物的亲和性KM分别为:香豆酰辅酶A 2.8μM,丙二酸单酰辅酶A,11.2μM。最适反应条件是350C,pH7.0,DTT浓度10 μM。 HBPS2是二苯甲酮合酶,其底物是苯甲丙氨酰辅酶A,和丙二酸单酰辅酶A,对这两种底物的亲和性KM分别为:苯甲丙氨酰辅酶A 2.4 μM,丙二酸单酰辅酶A 9.6μM。最适反应条件是350C,pH 6.5,DTT浓度50 μM。而CBPS1则没有检测到任何活性。从同一种植物中同时获得了查尔酮合酶和二苯甲酮合酶,对研究这两种十分相近的酶的差异表达,酶促反应机制等问题将非常有利。
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随着现代工业的发展,重金属污染已经成为一个非常严重的问题。 传统的重金属治理方法花费较高并且过程非常繁琐。植物修复技术是一种经济并且有效的利用植物进行环境污染治理的新方法。植物络合素是一类植物体内络合重金属离子的多肽,它已经发现于多种植物与微生物中。植物络合素合酶是催化GSH合成 植物络合素的关键酶。因此揭示植物络合素合酶的分子机理对于了解植物对重金属抗性的机制又很重要的意义。迄今为止,关于植物络合素合酶基因的研究主要集中在两种非重金属的植物中:拟南芥与小麦。许多关于该基因结构与功能的问题依然很不清楚。大蒜是一种能够抗很高浓度重金属的植物。在本研究中,我们利用大蒜这种重金属抗性植物对以下问题做了较为系统的研究: 1. 测量了大蒜在重金属胁迫下的生理表现,并得出大蒜是一种具有重金属抗性的植物; 2. 我们从大蒜中克隆出一个新的植物络合素合酶基因。该基因全长1868bp,包含一个 506个氨基酸的开放读码框并编码一个55.8KD的蛋白。该基因转译的氨基酸序列与其他十二种物种的植物络合素合酶氨基酸序列具有很高的同源性; 3. 酵母功能互补试验证明表达AsPCS的酵母可以比对照耐受更高浓度的镉与砷。这表明AsPCS的转译产物在酵母与植物的重金属的耐受过程中起很重要的作用; 4. RT-PCR的结果表明,经过重金属Cd2+的胁迫,AsPCS在根中与茎中的表达量都有提高,这说明AsPCS的调控是发生在转录水平上的。另外通过比较该基因在相同处理条件下根中与茎中的表达量,我们发现AsPCS在根中的表达量远高于茎中; 5. 原位杂交显示AsPCS主要表达于根的表皮、顶端分生组织、韧皮部,并且当重金属压力提高后,表皮的表达量明显提高。
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茉莉酸(JA)以及茉莉酸甲醋(MeJA)统称为茉莉素(jasmonates),是由 亚麻酸起始合成的一类具环戊酮基的广泛存在于植物界的类激素,它们对于植物 的发育和抗逆性等都起着重要的作用。为了进一步的了解茉莉酸的生物合成以及 功能,我们对”冬小麦中的茉莉酸生物合成、低温环境中的作用及对拟南芥开花时 间的影响等方面进行了研究。 为了方便分离茉莉酸诱导的基因,我们构建了一个高质量的小麦茉莉酸诱导 文库。未扩增时滴度为3一4xlo6pfu/ml,平均插入的长度为1.2kb。TaJIP是一个 JA诱导的基因,进一步的Northern分析发现它亦可以被低温诱导表达,这给了 我们一个提示,JA信号系统可能参与了植物对低温反应的过程。当外源施加JA于拟南芥时,无论是春化处理或者没有春化处理,无论是C24 还是Col生态型,开花时间都有所增加,而且进一步的NOrthern实验证明,这 种外源的JA的处理延迟开花的现象是与开花抑制基因FLC表达水平的增加相平 行,与长日促进途径中的主效基因CO的表达水平无关。这种JA处理延迟开花的 现象与FLC表达水平增加相平行的现象,表明了JA有可能是通过作用于FLC, 使它的表达水平增加来延迟开花。 Aos(Allene oxide synthase)是茉莉酸合成的脂氧合酶途径中的第一个关 键酶。我们克隆了小麦中的该基因并作了表达分析。它的开放阅读框(ORF)约 1410 bp,编码的多肤长约470个氨基酸,推测其蛋白分子量为51.9 kDa,pI为 9.39。Southern分析表明其在基因组中的拷贝数为3个。其mRNA表达可被外源 的JA强烈的诱导。处理10小时达到高峰。RNA原位杂交表明,该基因在幼苗 中组织特异表达,主要集中在幼叶,特别是在维管束区域,与大麦中的AOS不 同的是,它还在胚芽鞘和茎尖的维管束区域有强烈的表达信号。原位杂交还显示 La3十并不能阻断JA对它的诱导表达
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随着现代工业的发展,重金属污染日趋严重。重金属污染引发的环境和健康问题在许多国家都有报道,我国的重金属污染状况也不容乐观。土壤和水体中的重金属污染可以通过食物链进入人体,对人类健康造成很大的危害,如诱发癌症 和畸胎等。 植物修复是一种利用植物对重金属或有机污染物的超富集能力清除或减低污染的环境生物技术。植物修复的生物学机制的研究为这项技术走向实用化奠定了基础。植物修复近期的进展可能来自于可更有效地富集重金属的植物品种的选择、土壤条件的改善等;但长远看来,植物修复技术的巨大进步将取决于新的可更好地抵抗重金属或降解有机毒物的基因的鉴定和克隆,并通过转基因技术创造一批新的植物品种,如可迅速大量富集重金属的高生物量的用作环境净化的植物,以及可排拒重金属吸收的粮食、蔬菜和水果等作物。 本研究针对砷污染的植物修复机制,以超富集砷的凤尾蕨属植物——蜈蚣草为试材取得了如下进展: 1. 以从砷污染地区采集的蜈蚣草(Pteris vittataL.)为植物材料,利用抑制消减杂交(SSH)分离了经砷诱导处理与其对照间表达有差异的cDNA片段,以期得到与砷富集密切相关的基因。其中筛选到的一个cDNA片段与ABC transporter (ATP-binding cassette transporter)有较高的同源性。通过RACE方法对该基因进行了克隆,并进行了初步的结构和功能分析。结果表明所获得的PvABCTl (Accession No. AY496966)为一全长cDNA,长度为2165 bp,其中开读框架为1791 bp,编码597个氨基酸。该基因所编码的蛋白中含有2个ABC transporter特性结构域,1个ATP-binding cassette和2个ATP/GTP结合位点(P-loop),没有明显的跨膜区。 2. 对蜈蚣草在砷胁迫下PvABCT1基因的表达模式进行了研究。转录水平分析表明PvABCT1的表达受砷的诱导。进一步通过PvABCTl-GFP融合基因在洋葱细胞中的表达进行亚细胞定位,结果显示该基因可能定位于细胞质中。 3. 为了研究所克隆的PvABCT1基因的功能,本研究构建了PvABCT1的酵母表达载体,把该基因转入因ACR3基因缺失而对砷敏感的酵母突变株。酵母功能互补实验表明PvABCT1不仅不能与ACR3基因功能互补,反而使酵母对砷的敏感性增加,同时酵母细胞中的砷含量较未转化的酵母细胞增加。即在转入PvABCT1后,酵母细胞吸收了更多的砷。这暗示该基因与蜈蚣草中砷的高吸收有关。 针对食品重金属污染问题,本研究探讨了减低蔬菜对重金属吸收的方法及其 作用机理,取得了如下进展: 1.研究了钙离子和镧离子对镉离子胁迫下生菜种子萌发和植株生长的影响,结果表明在种子萌发时外施4 mM CaCI2或0.04 mg/L La(N03)3均可提高生菜对重金属镉的抗性。 2.通过检测0.5 mM CdCl2胁迫下生菜植株中的镉含量以及外施钙离子或镧离子后相应的镉含量,发现4 mM CaCl2可以增加镉胁迫下生菜植株中镉的积累;而0.04 mg/L La(N03)3可以降低镉胁迫下生菜植株中镉的积累。 3.对生菜中植物络合素合酶基因进行了克隆,通过RT-PCR分析以及植物络合素( phytochelatins,PCs)的检测,探讨了外施钙离子或镧离子对镉胁迫下生菜植株中植物络合素合酶基因在转录水平的表达量、植物络合素含量以及镉的积累三者之间的关系。结果表明:4 mM CaCl2可以提高镉胁迫下生菜植株中植物络合素合酶基因在转录水平的表达以及植物络合素的含量,增加镉的积累;而0.04 mg/L La(N03)3虽然同样可以提高植物络合素合酶基因在转录水平的表达以及植物络合素的含量,却能降低镉胁迫下生菜植株中镉的积累。这暗示外施钙离子可以促进用于重金属污染环境修复的植物对重金属的吸收,而外施镧离子可以用于降低叶菜类蔬菜中重金属镉的积累。