植物的异黄酮合酶（IFS）

植物异黄酮是在植物次生代谢过程中产生的一类多酚混合物。其对植物自身防御病虫害和诱导根瘤形成以及人类预防或治疗激素相关的多种疾病都有作用。异黄酮合成的关键酶是异黄酮合酶（isoflavone synthase,IFS）。本文就异黄酮的代谢途径、IFS催化机制、基因克隆和转基因的研究进展作简单介绍,并讨论了IFS基因与根瘤菌之间可能的关系。     

大豆异黄酮合酶基因的克隆及序列分析

目的:大豆异黄酮是多酚类混合物,有防治肿瘤发生,提高机体免疫力等多种保健功能。异黄酮合酶(isoflavone synthase,IFS)是合成异黄酮的关键酶。本文为了利用异黄酮的特有生物学功能,从大豆中克隆了该基因。方法:采用PCR扩增从大豆[Glycine max(Linn.)Merr.]总RNA中分离了异黄酮合酶基因,并将其克隆到pUCm-T载体并测序。结果:得到全长1583bp的片段。以期用于构建诱导表达基因敲除系统,并用于无性繁殖植物的无标记基因转化。结论:序列分析表明,异黄酮合酶基因(IFS1)含1583个核苷酸,与已报道的序列比较,核苷酸的同源性为92%。     

大豆籽粒发育过程中异黄酮合成相关酶基因的表达模式与异黄酮积累的相关分析

利用高效液相色谱法和实时定量PCR方法,分别测定了2个异黄酮含量显著差异的大豆品种鲁黑豆2号(LHD2)和南汇早黑豆(NHZ)在子粒发育过程中的异黄酮含量变化以及异黄酮合成相关酶基因的表达模式变化,试图分析异黄酮积累与各基因表达量变化的相关关系。结果表明在大豆子粒发育过程中,异黄酮含量逐渐升高,而不同异黄酮合成相关酶基因的表达趋势不同,CHS7、CHS8、CHR、CHI1A和IFS2的表达趋势与异黄酮积累模式基本一致,而IFS1和CHI1B1的表达趋势与异黄酮积累模式相反。IFR的表达模式在2个大豆品种中存在相反的趋势,在LHD2中与异黄酮组分积累趋势相反,而在NHZ中与异黄酮组分积累趋势相同。结果还表明,同一基因家族中不同基因在子粒发育过程中的表达量也存在差异。查尔酮合酶基因家族中CHS7和CHS8以及查尔酮异构酶基因家族的CHI1A的表达水平相对其他成员较高,异黄酮合酶基因家族中IFS2的表达量显著高于IFS1的表达量,预示这些基因家族在大豆子粒异黄酮积累过程中存在功能分化。此外,各基因表达模式与异黄酮积累的相关分析结果表明,不同基因表达模式与异黄酮积累的相关性在2个品种中也不尽相同。LHD2中CHS7、CHS8和IFS2在子粒发育过程中的表达量变化与不同异黄酮组分呈显著正相关,CHI1B1基因的表达量变化与不同异黄酮组分呈显著负相关。而在NHZ中,IFR在子粒发育过程中的表达量变化与多个异黄酮组分呈显著正相关。这预示了不同大豆品种异黄酮含量差异的潜在遗传基础。各异黄酮合成相关酶基因表达量变化的相关分析表明,在2个品种中,苯丙氨酸水解酶PAL1与4CL,4CL与CHS2以及CHS1与IFS2基因的表达量均呈现显著正相关。表明这些基因可能通过协同作用共同调控异黄酮的合成与积累。这些结果为今后利用基因工程提高大豆异黄酮含量奠定了基础。     

大豆异黄酮生物合成关键酶及其代谢工程研究进展

异黄酮是一类具有C-6/C-3/C-6骨架的二次代谢产物,具有抗氧化和抗肿瘤活性。异黄酮与黄酮类物质具有相似的苯丙烷生物合成途径。天然的绝大部分异黄酮分布在豆科植物中,目前在大豆中已经发现了超过12个异黄酮(苷)。大豆异黄酮的生物合成主要涉及三个关键的酶查尔酮合酶(CHS)、查尔酮异构酶(CHI)和异黄酮合酶(IFS)。总结了大豆异黄酮的提取分离方法和生物合成途径,着重综述了CHI、CHS、IFS生物学特征和功能及异黄酮的代谢工程研究。     

植物异黄酮合酶研究进展

植物异黄酮是一类具有增强植物抗病、诱导根瘤形成以及预防激素相关肿瘤发生、缓解女性更年期综合症的活性次生代谢产物,其合成关键酶是异黄酮合酶(IFS)。介绍了IFS的催化机理、基因克隆与表达调控的研究进展,讨论了开展IFS代谢工程研究对提高植物抗病虫害能力和改善农作物营养保健功效的意义。     

黑曲霉果胶裂解酶基因毕赤酵母在Pichia pastoris GS115中的表达

利用RT-PCR技术从黑曲霉(EIM-6)中扩增得到去除信号肽的果胶裂解酶基因A,将其插入到毕赤酵母表达载体pPIC9k上,构建重组表达质粒pPIC9K-pelA,电击转化毕赤酵母GS115,得到了表达成功的工程菌株。用终浓度为1.5%的甲醇对其进行诱导,将发酵上清液浓缩后,用盐酸法测定其酶活可以达到2.3U/mL。通过对重组毕赤酵母诱导表达产物进行SDS-PAGE鉴定,发现重组毕赤酵母分泌了1个约38kD的蛋白,与该酶基因产物的理论值相符,并通过水解圈法测定验证,均说明果胶裂解酶得到正确的分泌表达.     

大豆异黄酮合成途径相关基因差异表达分析

大豆异黄酮是一种应用广泛、具有医用和保健功能的活性物质。为揭示异黄酮合成途径相关基因表达差异,本研究采用实时定量PCR技术分析相关基因在不同大豆品种、发育时期及组织部位的表达。结果发现,苯丙氨酸解氨酶基因PAL、肉桂酸羟化酶基因C4H、香豆酸辅酶A连接酶基因4CL在高异黄酮品种中豆27 R2期叶片中的表达量显著高于低异黄酮品种楚秀;查尔酮合成酶基因CHS、异黄酮合成酶基因IFS在中豆27 R8期子粒中的表达量显著高于楚秀;细胞色素还原酶基因CPR在中豆27 R7期叶片与子粒的表达量与楚秀相比显著降低。这些差异表达的基因可能是形成大豆品种异黄酮含量高低的重要原因。     

西方许旺酵母α-淀粉酶基因的克隆及其在大肠杆菌中的分泌表达

目的:将带有完整自身信号肽的西方许旺酵母α-淀粉酶基因克隆到大肠杆菌中,验证西方许旺酵母α-淀粉酶基因能否在大肠杆菌中有效表达。方法:利用PCR扩增带有完整自身信号肽的西方许旺酵母α-淀粉酶基因,并将其接入Zeocin启动子片段,构建了重组表达载体GapZA,转化大肠杆菌,验证得到的阳性克隆菌株是否表达α-淀粉酶活性。结果:阳性克隆菌株均有α-淀粉酶活性。结论:证明了许旺酵母α-淀粉酶能在自身信号肽引导下分泌到大肠杆菌细胞外,并且表现出明显酶活。     

粉葛PtCHI基因的克隆、原核表达和亚细胞定位

为探究葛根品种间异黄酮类物质代谢关键酶基因PtCHI的分子机制差异，并揭示其品种间异黄酮物质含量差异的原因，该研究以野葛品种‘桂葛8号’和粉葛品种‘桂葛1号’为材料，经乙醇提取并通过高效液相色谱仪对野葛和粉葛中葛根素和总黄酮的含量进行测定，基于已报道的野葛CHI基因，通过同源克隆方法分离粉葛中PtCHI基因，并在体外进行蛋白表达，同时在拟南芥原生质体中研究PtCHI基因的定位。结果表明：(1)野葛中的葛根素含量显著高于粉葛的，野葛的总黄酮含量也高于粉葛但未达到显著水平。(2)成功分离到粉葛PtCHI基因，长度为742 bp且包含672 bp完整的ORF框，编码223个氨基酸，与野葛的CHI基因具有99%的同源性。(3)CHI基因在粉葛中的表达量为茎>根>叶子，在野葛中则为根>茎>叶子，除叶子外野葛中CHI基因的表达量均显著高于粉葛。(4)经预测，粉葛PtCHI蛋白为稳定的亲水性蛋白且大小为27.8 kD,二、三级结构以α-螺旋为主，具有25个磷酸化位点，与野葛、大豆和乌拉尔甘草的亲缘关系较近，与F3H2、F3H、4CL4、DFR2及CHS发生互作的可能性较大。(...     

A genomic approach to isoflavone biosynthesis in kudzu (<Emphasis Type="Italic">Pueraria lobata</Emphasis>)

Roots of kudzu (Pueraria lobata) are a rich source of isoflavone O- and C-glycosides. Although O-glycosylation of (iso)flavonoids has been well characterized at the molecular level, no plant isoflavonoid C-glycosyltransferase genes have yet been isolated. To address the biosynthesis of kudzu isoflavonoids, we generated 6,365 high-quality expressed sequence tags (ESTs) from a subtraction cDNA library constructed using RNA from roots that differentially accumulate puerarin. The ESTs were clustered into 722 TCs and 3,913 singletons, from which 15 family I glycosyltransferases (UGTs) were identified. Hierarchical clustering analysis of the expression patterns of these UGTs with isoflavone synthase (IFS) in a range of tissues identified UGTs with potential functions in isoflavone glycosylation. The open reading frames of these UGTs were expressed in E. coli for functional analysis, and one was shown to preferentially glycosylate isoflavones at the 7-O-position. In addition, ESTs corresponding to chalcone synthase, chalcone reductase, chalcone isomerase (CHI) and 2-hydroxyisoflavanone dehydratase were identified. Recombinant CHI proteins had high activities with both 6′-deoxy- and 6′-hydroxy chalcones, typical of Type II CHIs. Establishment of this EST database and identification of genes associated with kudzu isoflavone biosynthesis and glycosylation provide a new resource for metabolic engineering of bioactive kudzu isoflavones.     

犬细小病毒VP2基因的克隆及其在毕赤酵母中的表达

目的表达犬细小病毒VP2蛋白（CPVVP2）,用于犬细小病毒病的诊断、疫苗研制和VP2蛋白功能研究。方法采用PCR方法对CPVVP2基因进行扩增,将CPVVP2基因克隆到毕赤酵母（Pichiapastoris）分泌表达载体pPICZαA中,构建真核重组表达载体pPICZαA—VP2,将该重组质粒线性化后,转化毕赤酵母菌GS115中,在甲醇诱导下表达CPVVP2,SDS-PAGE和Western blotting鉴定表达蛋白。结果成功扩增了CPVVP2基因,构建了真核重组表达载体pPICZαA-VP2在毕赤酵母菌中表达出约64．35kD蛋白。Western blotting鉴定表明,表达VP2蛋白与犬细小病毒阳性血清有反应性。结论在毕赤酵母中成功地表达了CPVVP2蛋白,能被犬细小病毒阳性血清识别。     

Characterization of isoflavone synthase gene from Psoralea corylifolia: a medicinal plant

Isoflavones are known to possess medicinal properties and implicated in plant–pathogen interaction. We have for the first time isolated and functionally characterized an isoflavones synthase (IFS) gene from a traditionally acclaimed medicinal plant Psoralea corylifolia abundantly growing in tropical and subtropical regions. The IFS catalyzes the exclusive reaction of phenylpropanoid pathway in leguminous plants to produce isoflavones. The full-length cDNA (PcIFS) of the gene comprised 1,563 bp and putatively encodes a polypeptide of 520 amino acid residues. The gene is expressed ubiquitously although at varying levels in different parts of the plant. The expression analysis suggests that the gene is responsive to methyl jasmonate, salicylic acid and wounding. Overexpression of PcIFS in non-leguminous tobacco plant led to the accumulation of isoflavones in petal tissue, suggesting it a functional gene from P. corylifolia involved in isoflavones biosynthesis.     

Analysis of the estrogenic components in kudzu root by bioassay and high performance liquid chromatography

The estrogenic activity of the Chinese herb kudzu root was investigated by a recombinant yeast screening assay (YES). Isoflavones are the main components in the plant, of which puerarin is the most abundant one. The kudzu root extract was separated into four fractions according to the polarity. The crude extract and its sub-fractions, except the water fraction, showed clear estrogenic activity and the potencies were in the range of 10(-3) to 10(-1)g/l. The ligand potency was used to compare the estrogenic activity of these fractions. The crude extract and its sub-fractions were further analyzed by high performance liquid chromatography (HPLC) to correlate the activity and the active components. Bioassay and chemical analysis showed that theoretical estrogenic activity expressed as equivalent 17beta-estradiol concentration or the cumulative effects are comparable to that experimentally determined by YES. The results showed that the high content of isoflavones as well as the high estrogenic activity could make kudzu root extract an interesting candidate for hormone replacement therapy.     

Cloning and expression of the isoflavone synthase gene (IFS-Tp) from Trifolium pratense

Isoflavones are secondary metabolites found mainly in leguminous plants. Their synthesis from flavanones is catalyzed by isoflavone synthase (IFS). We have cloned a isoflavone synthase gene (IFS-Tp) from Trifolium pratense that encodes a predicted 525 amino acids protein, molecular weight 59 kDa, with strong homology to IFS's from other legumes. IFS-Tp was expressed in all the tissues examined, and addition of glutathione and UV irradiation enhanced its expression. Microsomes from yeast transformed with IFS-Tp were able to convert naringenin to genistein, indicating that IFS-Tp has isoflavone synthase activity.     

人粒细胞-巨噬细胞集落刺激因子的克隆及在毕赤酵母中的表达

采用加长引物5＇端的方法克隆了hGM-CSF的编码基因,克隆过程中对该基因的局部做了密码子优化。然后克隆进毕赤酵母分泌型表达载体pPIC9K,电击转化毕赤酵母。PCR、SDS-PAGE与Western blotting证实hGM-CSF已整合进酵母基因组,摇瓶水平粗蛋白表达量达389mg/L,动物实验证实蛋白产物活性正常,SDS-PAGE与N-糖苷酶F去糖基化分析发现hGM-CSF被糖基化。     

Endogenous isoflavones are essential for the establishment of symbiosis between soybean and Bradyrhizobium japonicum

Legume iso/flavonoids have been implicated in the nodulation process, but questions remain as to their specific role(s), and no unequivocal evidence exists showing that these compounds are essential for nodulation. Two hypotheses suggest that the primary role of iso/flavonoids is their ability to induce rhizobial nod gene expression and/or their ability to modulate internal root auxin concentrations. The present work provides direct, genetic evidence that isoflavones are essential for nodulation of soybean roots because of their ability to induce the nodulation genes of Bradyrhizobium japonicum. Expression of isoflavone synthase (IFS), a key enzyme in the biosynthesis of isoflavones, is specifically induced by B. japonicum. When IFS was silenced using RNA interference in soybean hairy root composite plants, these plants had severely reduced nodulation. Surprisingly, pre-treatment of B. japonicum or exogenous application to the root system of either of the major soybean isoflavones, daidzein or genistein, failed to restore normal nodulation. Silencing of chalcone reductase led to very low levels of daidzein and increased levels of genistein, but did not affect nodulation, suggesting that the endogenous production of genistein was sufficient to support nodulation. Consistent with a role for isoflavones as endogenous regulators of auxin transport in soybean roots, silencing of IFS resulted in altered auxin-inducible gene expression and auxin transport. However, use of a genistein-hypersensitive B. japonicum strain or purified B. japonicum Nod signals rescued normal nodulation in IFS-silenced roots, indicating that the ability of isoflavones to modulate auxin transport is not essential to nodulation.     

Identification of isoflavone glycosides in Pueraria lobata cultures by tandem mass spectrometry

Isoflavones in the methanolic extracts of kudzu (Pueraria lobata) callus, suspension and root cultures were compared in order to develop an experimental system in which puerarin (daidzein 8-C-glucoside) and other isoflavones could be synthesised in vitro. Quantitative variation of puerarin and other known isoflavones was estimated in kudzu culture extracts using HPLC-UV. The highest and lowest amounts of puerarin (14.56 and 0.33 mg/g) were present in in vitro root cultures and leaf tissue-derived callus cultures, respectively. A total of 48 isoflavone metabolites were detected in extracts of kudzu root cultures by HPLC-MS/MS, and the structures of 33 of them were tentatively assigned. Amongst these, 12 isoflavone C-glycosides were identified. Hydroxyderivatives of puerarin in several isomeric forms were detected, some of which have not been previously reported in kudzu root. The molecular weights, interpretation of characteristic fragment ions obtained from HPLC-MS/MS and comparison with reported data allowed the putative identification of the isoflavone metabolites.     

四翅滨藜AcDHN基因的克隆及其抗逆功能分析

脱水素（dehydrin,DHN）是一类胚胎发育后期丰富蛋白（LEA）,在植物脱水条件下能保护细胞内蛋白质和膜结构免受破坏。本研究中,从四翅滨藜（Atriplex canescens）cDNA文库克隆得到逆境胁迫相关蛋白基因AcDHN的全长cDNA（登录号：JN974246）,并进行序列分析。将4cD鼢别插入到原核表达载体pET28a和双元表达载体pYES-DEST52中,通过转化大肠杆菌和酿酒酵母进行原核表达分析和真核表达分析。结果表明：AcDHN序列全长为1408bp,完整的开放阅读框长为1017bp,由338个氨基酸残基组成,预测蛋白质分子量为38.3kDa,理论等电点为6．47,AcDHN与仙人掌中DHN蛋白同源性为55％。AcDHN基因在大肠杆菌BL21（DE3）中诱导表达出分子质量约45．2kDa的融合蛋白。重组酵母菌株能表现出艮好抗逆性,特别是对NaCl、低温、Na2CO3和NaHCO3胁迫的抗逆性,其中抗碱胁迫能力表现最强。