铁皮石斛DoSMT2基因的克隆与表达分析

为了解SMT2基因在铁皮石斛（Dendrobium officinale）甾醇代谢过程中的作用,利用RACE技术克隆到1个DoSMT2基因,开放阅读框为1 089 bp,编码362个氨基酸,DoSMT2相对分子量为40.345 kD,理论等电点为8.13,属于稳定的亲水性蛋白。经BLAST P检索,DoSMT2蛋白属于AdoMet-MTases超级家族,含有4个S-腺苷蛋氨酸结合位点、1个甲基转移酶保守结构域和1个甾醇甲基转移酶C末端保守结构域。系统进化分析表明,DoSMT2与深圳拟兰（Apostasia shenzhenica）的SMT2亲缘关系最近,确定其属于SMT2家族。qRT-PCR分析结果表明,DoSMT2基因在茎和叶都能表达,10月份的表达量最高,叶片的表达量显著高于茎,推断叶片的甾醇代谢比茎活跃。构建了pET-29a-DoSMT2原核表达载体,并转化大肠杆菌BL21（DE3）,IPTG诱导表达出预期大小的蛋白。这为铁皮石斛DoSMT2的甲基化机制及甾醇化合物代谢研究奠定基础。     

激发子基因peaT1转化三生烟及其对TMV抗性的提高

通过根癌农杆菌(Agrobactrium tumefaciens)介导转化法,将含有激发子基因peaT1的植物表达载体pCAM-BIA2300-G4AS-peaT1转化三生烟,获得了转基因烟草植株。用PCR检测确认了阳性转化株,用Southern杂交、RT-PCR和Western杂交进一步证实了peaT1基因的整合、转录和表达。对T1代转基因阳性株进行TMV接种试验,结果显示,与非转基因对照相比,表达peaT1的烟草叶片枯斑数量减少,表明蛋白激发子基因peaT1的表达提高了转基因烟草对TMV的抗性。     

微孔草种子油的三萜醇和甾醇成分

微孔草Microula sikkimensis Hemsl,种子油中的不皂化物含量为0.6％。从不皂化物中分离出三萜醇和甾醇。已鉴定有4个三萜醇(β—香树脂醇、环阿屯醇、羽扇醇和24—次甲基环阿屯醉),11个甾醇(胆甾醉,△~7胆甾醇、菜油甾醇,24—甲墓△~7—胆甾醇、β—谷甾醇,22-二氢菠菜甾醇、菜子甾醇、豆甾烯醇、5,24(28)—豆甾烯醇、△~7—燕麦甾醇和7,24(28)-麦角甾醇)。     

转铁蛋白基因烟草中内源铁蛋白基因的差异表达及含铁量的变化

铁蛋白是一种由24个亚基组成的高分子贮藏蛋白质,可以储存多达4500个铁原子,在动植物及微生物的新陈代谢中起着非常重要的作用。有研究表明,外源铁蛋白的大量表达可以提高植物储存铁离子的能力。为了明确外源铁蛋白基因转化植物中内源铁蛋白基因差异表达与植物含铁量的关系,本研究在成功获得2个烟草铁蛋白基因的全长cDNA克隆NtFerl（登录号：ay083924）和NtFer2（登录号：ay141105）的基础上,以烟草品种SR-1（Nicotiana tabacum cv．Petit Havana SR-1）为受体,培育了转铁蛋白基因烟草。将双元载体pBI121中的GUS基因用来自大豆的铁蛋白基因SoyFer1（登录号：m64337）置换,利用农杆菌介导法转化烟草叶盘,获得在CaMV35S启动子驱动表达的大豆铁蛋白基因转化烟草植株。Northern杂交和Western杂交分析表明外源铁蛋白基因在转基因烟草中得到了正确表达。比较转基因烟草和非转基因烟草的内源铁蛋白基因表达强度、叶片铁含量、根系铁还原酶活性、株高和鲜重表明,外源铁蛋白基因不但促进了NtFer1的表达,提高转基因植株的储存铁的能力和根系铁还原酶活性,而且促进植株的生长速度。以上结果说明,外源铁蛋白基因转化烟草中内源铁蛋白基因的表达、铁离子的还原吸收及光和作用都得到了进一步的提高。     

柽柳金属硫蛋白基因(MT2)的过量表达对烟草耐Cd2+性的促进效应

将在柽柳(Tamarix androssowii)中克隆的金属硫蛋白基因MT2(GenBank登录号:AY620987)构建到载体pROKII上。用农杆菌介导的叶盘法转化烟草‘龙江911’,获得了抗卡那霉素的转基因植株。PCR-Southern和Northern blot检测证明外源基因已整合进烟草基因组并可正常表达。Cd2 抗性实验证明柽柳金属硫蛋白基因(MT2)的表达可提高转基因烟草的抗Cd2 性。     

转小麦冷胁迫蛋白截短基因烟草及其抗病性分析

TA3-13是克隆于小麦冷胁迫蛋白基因的截短片段。原核表达的TA3-13蛋白能够诱导烟草产生显著的抗烟草花叶病毒(TMV)的作用。文章将TA3-13基因片段克隆到植物表达载体pBI121上,构建成转基因重组体pB-3-13,通过冻融法转化农杆菌EHA105,构建成转基因侵染菌株。采用叶盘法将pB-3-13转化三生烟草,经卡那霉素抗性筛选,获得48株T0代再生植株。通过PCR检测,鉴定出33株转基因单株,收获了20株种子作为T1代株系。PCR-Southern杂交结果显示,PCR阳性条带与TA3-13探针有特异性杂交,说明外源基因被转化到烟草的基因组中。选取两个T1代株系的烟草植株用于各项测定。GUS组织化学活性鉴定和RT-PCR检测结果显示,外源基因可以成功地表达。接种TMV病毒后,转基因烟草抗TMV的能力较转空载体烟草提高3～5倍。转基因烟草具有抗TMV侵入和抗病毒病害发展的作用,同时转基因烟草可以抗细菌软腐病菌的扩展。     

小黑杨PsnHB22基因在烟草中的遗传转化研究

HD-Zip转录因子在光信号转导、非生物胁迫、叶片发育等方面发挥重要的作用，HB22转录因子是HD-ZipⅠ亚家族的成员之一。为研究PsnHB22基因的功能，从小黑杨（Populus simonii×P.nigra）cDNA中克隆PsnHB22基因并构建植物表达载体进行烟草（Nicotiana tabacum）的遗传转化，以获得该基因过量表达的转基因株系。对转基因株系进行PCR、qRT-PCR分子检测后观察表型，结果显示在营养生长时期，转基因烟草叶片窄小并且株高显著低于野生型对照。测定转基因烟草及野生型叶片的叶绿素含量，发现转基因烟草叶绿素含量显著高于野生型。由此推测PsnHB22基因在植株高生长、光合作用及叶片的形态建成等过程中起着重要的作用。     

转MhGlu基因烟草灰霉病抗性及光合特性研究

以湖北海棠盆栽及组培苗叶片为材料,经NaCl、PEG-6000及4℃下ABA处理后,通过RT-PCR技术克隆了湖北海棠β-1,3-葡聚糖酶基因MhGlu;构建MhGlu基因的植物表达载体,通过农杆菌介导法将MhGlu基因转入烟草中,并通过PCR和RT-PCR检测,成功获得了4个转基因株系T6、T8、T11和T18;以转基因烟草株系T6及T8和非转基因对照植株为材料,对MhGlu基因的功能进行了进一步分析。结果显示:(1)半定量qRT-PCR显示,NaCl、PEG-6000及4℃下ABA处理均可以诱导湖北海棠盆栽及组培苗叶片MhGlu基因的表达;NaCl和PEG-6000处理48h内MhGlu基因的表达随处理时间延长逐渐增强,4℃下ABA处理的MhGlu基因表达量在4h时开始上调,12h时略降低,48h时又达到最大。(2)半定量RT-PCR检测转基因烟草植株几个病程相关基因PRs的表达量,表明过表达的MhGlu基因诱导并增强了烟草病程相关基因NtPR1、NtPR3和NtPR5的表达。(3)用灰霉病侵染烟草叶片,转基因烟草株系T6、T8均表现出较强的抗灰霉病特性。(4)测定烟草植株光合特性参数,转MhGlu基因烟草株系的净光合速率(Pn)、蒸腾速率(Tr)和气孔导度(Gs)较对照组均显著提高,且T8的净光合速率和蒸腾速率均显著高于T6,而T8与T6的气孔导度差异不显著。MhGlu基因在烟草中的过量表达能诱导病程相关基因PRs的表达,激活了烟草的光合特性保护机制,提高了转MhGlu基因烟草植株的灰霉病抗性。     

转双价抗虫基因大白菜新种质的获得及其抗虫性分析

采用超声波辅助花粉介导方法,将双价抗虫基因BmkIT-Chitinase导入早熟型大白菜自交系20-19-3,最终获得了5个转基因大白菜优良自交系纯合株系Z1-5、Z2-7、Z9-6、Z11-6和Z20-13;以转基因大白菜株系和非转基因对照植株为材料,对BmkIT-Chitinase基因在大白菜中的遗传规律、基因表达及抗虫性进行进一步分析。结果显示:(1)转化株后代多代(T_1~T_4)PCR、Southern blotting等分子跟踪检测表明,目的基因已成功导入受体植株,且能够稳定遗传;用该转基因方法对大白菜进行基因转化所获得的转基因植株分析显示,外源基因多数以多拷贝形式整合于核基因组,少部分外源基因以单拷贝形式整合。(2)Elisa分析结果证明,所导入的外源基因可高效表达,T4代株系新鲜叶片中表达产物量最高达到0.069μg·g~(-1)左右。(3)转基因株系田间抗虫性统计分析表明,转化株系与对照在抗虫性方面有显著差异,其对小菜蛾及菜青虫抗性普遍提高2~3级。研究认为,转BmkIT-Chitinase基因大白菜中BmkIT-Chitinase基因的表达可有效提高大白菜的抗虫性。     

绿色荧光蛋白基因（G卯）在抗虫转基因植物研究中的应用

用合成的crylAc基因与绿色荧光蛋白基因(GFP)构成融合蛋白基因,然后和改造的GNA基因构建双价抗虫基因植物表达载体pBGbfg,经根癌农杆菌介导转化了烟草。在紫外灯照射下,观察到转基因植株叶片中有较强的绿色荧光;经抗虫试验、PCR、Southern blot和Western blot等检测,表明该重组植物表达载体能够在转基因植物中有效表达外源基因,转基因植株绿色荧光的表型与其抗虫性密切相关。从而成功地建立了以绿色荧光蛋白基因与抗虫基因组成的融合基因转化系统,简化了抗虫转基因植物筛选程序,有助于快速获得双价抗虫转基因植株。     

Expression of Cry1Ac in Transgenic Tobacco Plants Under the Control of a Wound-Inducible Promoter (AoPR1) Isolated from Asparagus officinalis to Control Heliothis virescens and Manduca sexta

Expression of cry1Ac gene from Bacillus thuringiensis (Bt) was evaluated under the control of a wound-inducible AoPR1 promoter from Asparagus officinalis in transgenic tobacco plants. The leaves of transgenic plants were mechanically wounded to evaluate the activity of the AoPR1 promoter in driving the expression of Cry1Ac protein at the wound site. Our results indicate that mechanical wounding of transgenic plants was effective in inducing the expression of Cry1Ac protein. As a result of this induction, the accumulated levels of Cry1Ac protein increased during 6–72 h post-wounding period. The leaves of transgenic tobacco plants were evaluated for resistance against Heliothis virescens and Manduca sexta in insect bioassays in two different ways. The detached tobacco leaves were either fed directly to the insect larvae or they were first mechanically wounded followed by a 72 h post-wounding feeding period. Complete protection of mechanically wounded leaves of transgenic plants was observed within 24 h of the bioassay. The leaves of transgenic plants fed directly (without pre-wounding) to the larvae achieved the same level of protection between 24 and 72 h of the bioassay.     

转GhB301基因烟草的防御酶活性及抗病相关基因表达分析

为了明确棉花ERF-B3亚族转录因子基因GhB301在烟草异位表达后(抗枯萎病中)的功能,该研究以过表达GhB301基因烟草和野生型烟草为材料,采用枯萎病菌孢子悬浮液接菌方法,分析病原菌侵染前后防御酶活性变化以及防卫相关基因的表达变化与抗病性的关系。结果显示:(1)棉花枯萎病菌处理15d后,2个转基因株系烟草叶片黄化程度与野生型相比较轻。(2)棉花枯萎病菌处理后,过表达GhB301转基因烟草和野生型烟草叶片过氧化物酶(POD)、苯丙氨酸解氨酶(PAL)、多酚氧化酶(PPO)的活性较未接菌对照显著提高,并且酶活峰值出现均早于野生型材料;转基因材料叶片的POD、PAL、PPO活性均在处理3d后达到峰值,而野生型材料叶片的POD、PAL活性在处理5d后才达到峰值。(3)接种棉花枯萎病菌后活性氧相关基因、乙烯(ET)/茉莉酸(JA)途径相关基因、病程相关基因的表达量在转基因株系OE1和OE2中均受到明显影响。研究推测,GhB301在烟草中的异位表达激活了防卫相关基因的表达,提高了防御酶的活性,从而增强了烟草对枯萎病菌的抗性。     

天山雪莲LEA14基因克隆及功能分析

从天山雪莲叶片低温诱导的EST文库中获得了1个胚胎发育晚期丰富蛋白基因(LEA)cDNA全长序列。序列分析表明,该基因含有1个468bp编码155个氨基酸的开放阅读框。NCBI保守域预测此蛋白属于LEA_2家族,命名为SiLEA14。系统进化分析表明,该蛋白与北柴胡的LEA-2蛋白亲缘关系最近。荧光定量PCR结果显示,SiLEA14表达量在低温、盐和干旱胁迫条件下迅速升高。亚细胞定位结果表明,SiLEA14蛋白定位于细胞核中。利用农杆菌介导法将该基因导入烟草,测定并分析转基因植株在冷冻和盐胁迫处理下的生理指标,结果表明,SiLEA14基因在烟草中的过量表达提高了烟草的抗冻和耐盐能力。     

转彩色马铃薯StAN1基因的烟草幼苗耐旱性分析

该研究以转彩色马铃薯StAN1基因烟草为材料、野生型烟草(WT)为对照,测定分析转StAN1基因烟草在种子萌发期、幼苗期和苗期对干旱(甘露醇)处理的耐受情况,并对苗期旱热共同胁迫的耐受情况进行测定分析,以探讨彩色马铃薯StAN1基因的功能,为耐旱彩色马铃薯育种提供新路径.结果显示:(1)转StAN1基因烟草鉴定显示,阳...     

转CiCHS基因拟南芥的黄酮代谢及抗氧化能力分析

该研究克隆了中间锦鸡儿的查尔酮合成酶基因(CiCHS)并转入野生型拟南芥和tt4突变体,用qRT-PCR检测了转基因拟南芥中内源AtCHS基因的表达量,用分光光度法分析了转基因拟南芥的总黄酮、丙二醛含量及DPPH自由基清除能力,用HPLC法检测了转基因拟南芥的柚皮苷含量。结果显示:(1)转基因拟南芥中,内源AtCHS基因的表达量约为野生型的十分之一,总黄酮含量明显高于野生型;HPLC测得转基因株系中柚皮苷含量高于野生型;紫外照射处理前后转基因拟南芥中丙二醛积累量明显少于野生型。(2)转基因株系提取物对DPPH自由基清除能力显著高于野生型。(3)CiCHS基因互补拟南芥tt4突变体,转基因株系的种皮呈现浅棕色。研究表明,中间锦鸡儿CiCHS基因异源表达后生成了柚皮苷,使转基因植物的抗氧化性增强,部分恢复了tt4突变体的种皮颜色。     

A chimeric gene encoding the methionine-rich 2S albumin of the Brazil nut (Bertlrolletia excelsa H.B.K.) is stably expressed and inherited in transgenic grain legumes

The coding region of the 2S albumin gene of Brazil nut (Bertholletia excelsa H.B.K.) was completely synthesized, placed under control of the cauliflower mosaic virus (CaMV) 35S promoter and inserted into the binary vector plasmid pGSGLUC1, thus giving rise to pGSGLUC1-2S. This was used for transformation of tobacco (Nicotiana tabacum L. cv. Petit Havanna) and of the grain legume Vicia narbonensis L., mediated by the supervirulent Agrobacterium tumefaciens strain EHA 101. Putative transformants were selected by screening for neomycin phosphotransferase (NPT II) and -glucuronidase (GUS) activities. Transgenic plants were grown until flowering and fruiting occurred. The presence of the foreign gene was confirmed by Southern analysis. GUS activity was found in all organs of the regenerated transgenic tobacco and legume plants, including the seeds. In the legume, the highest expression levels of the CaMV 35S promoter-controlled 2S albumin gene were observed in leaves and roots. 2S albumin was localized in the vacuoles of leaf mesophyll cells of transgenic tobacco. The Brazil nut protein was present in the 2S fraction after gel filtration chromatography of the legume seed proteins and could be clearly identified by immunoblotting. Analysis of seeds from the R₂ progenies of the legume and of transgenic tobacco plants revealed Mendelian inheritance of the foreign gene. Agrobacterium rhizogenes strain RifR 15834 harbouring the binary vector pGSGLUCl2S was also used to transform Pisum sativum L. and Vicia faba L. Hairy roots expressed the 2S albumin-specific gene. Several shoots were raised but they never completely rooted and no fertile plants were obtained from these transformants.     

Expression of isopentenyl transferase gene (<Emphasis Type="Italic">ipt</Emphasis>) in leaf and stem delayed leaf senescence without affecting root growth

A cytokinin biosynthetic gene encoding isopentenyl transferase (ipt) was cloned with its native promoter from Agrobacterium tumefaciens and introduced into tobacco plants. Indolebutyric acid was applied in rooting medium and morphologically normal transgenic tobacco plants were regenerated. Genetic analysis of self-fertilized progeny showed that a single copy of intact ipt gene had been integrated, and T₂ progeny had become homozygous for the transgene. Stable inheritance of the intact ipt gene in T₂ progeny was verified by Southern hybridization. Northern blot hybridization revealed that the expression of this ipt gene was confined in leaves and stems but undetectable in roots of the transgenic plants. Endogenous cytokinin levels in the leaves and stems of the transgenic tobaccos were two to threefold higher than that of control, but in roots, both the transgenic and control tobaccos had similar cytokinin levels. The elevated cytokinin levels in the transgenic tobacco leaves resulted in delayed leaf senescence in terms of chlorophyll content without affecting the net photosynthetic rate. The root growth and morphology of the plant were not affected in the transgenic tobacco.     

沙冬青AmFAD2-1基因的克隆及其功能分析

细胞膜脂的不饱和度主要由脂肪酸去饱和酶(fatty acid desaturase,FAD)决定,二者与植物抵抗低温和高盐等逆境胁迫密切相关。沙冬青(Ammopiptanthus mongolicus)是中亚荒漠区唯一的常绿旱生阔叶植物,具有很强的耐寒、耐旱和耐盐碱等特性。该研究利用RT-PCR方法克隆到沙冬青油酸去饱和酶基因AmFAD2-1的cDNA和gDNA,其中后者不含内含子。在AmFAD2-1蛋白(含382个氨基酸残基)序列中含有FAD家族必须的保守组氨酸簇和内质网定位信号及跨膜结构域。进化分析表明,AmFAD2-1与大豆(Glycine max)和柠条锦鸡儿(Caragana korshinskii)等豆科植物的FAD2距离较近,而与玉米(Zea mays)和拟南芥(Arabidopsis thaliana)等其他植物的FAD2距离较远。qRT-PCR分析表明,在室内培养的沙冬青幼苗中,AmFAD2-1的表达量在低温处理2～24h和干旱处理6～13d期间显著上调,在盐胁迫处理期间则呈现升高、降低、再升高的变化趋势;在野外生长的沙冬青成株嫩叶中,其表达量在秋季和冬季总体上明显高于春季和夏季。成功构建了植物表达载体p3300-35S-AmFAD2-1并通过根癌农杆菌介导法转化野生型拟南芥,获得16株转AmFAD2-1基因植株。耐逆性鉴定表明,转基因株系的耐冻性较野生型拟南芥显著提高,其耐旱性和耐盐性也比后者有较明显的改善。