转不可翻译PVYN CP基因烟草的抗病性分析

我们曾报道表达不可翻译PVY~N CP基因的转基因烟草抗病性是由RNA介导的,其抗病性类似于转录后的基因沉默(PTGS)。本研究以这类不同抗性的Tn代转基因烟草植株为材料,对自交后的T1代转基因植株的遗传和抗病性进行了分析,并选取部分T_1代抗病株系自交留种。对T_2代RNA介导抗病性转基因植株进行了分子分析和一系列抗病性研究。结果表明,含1-2个转基因拷贝的T_0代感病植株,在T_1代中的Km抗性分离符合单位点插入的3∶1的遗传规律;含3个或3个以上转基因拷贝的T_0代中抗或高抗植株,在T_1代中的Km抗性分离符合多位点插入的15∶1或63∶1的遗传规律。大多数T_1、T_2代转基因植株的抗病性与转基因拷贝数成正相关,转基因在T_1、T_2代植株中能够转录表达,且转基因植株之间转基因mRNA在细胞质中的积累水平与转基因植株的抗病性成负相关。转基因植株的抗病性能够在T_1、T_2代中遗传,且T_2代转基因植株的抗病性具有以下特征:1)既抗病毒粒体又抗病毒RNA的侵染,且这种抗病性不受接种物剂量的影响;2)抗病谱较窄,只对PVY的某些株系具有高度抗病性;3)与传毒方式无关,既抗摩擦接种又抗带毒蚜虫接种;4)与植株的发育阶段没有关系。     

RNA介导的病毒抗性在转基因烟草中的遗传分析

以含非翻译马铃薯Y病毒外壳蛋白(PVY—MCP)基因的抗病和感病T0代转基因烟草为材料,对转基因及RNA介导的病毒抗性在T1～T4代转基因植株中的遗传进行了研究。结果表明,在含低拷贝(1～2个)转基因的感病植株后代中,转基因是作为一个单显性遗传位点,遵循孟德尔遗传分离规律,各世代转基因植株仍表现感病。含多拷贝(4～6个)转基因的抗病植株,转基因在T1代的分离虽符合多位点插入的15：1和63：1遗传规律,但转基因发生了重排,RNA介导的病毒抗性表现为不稳定遗传。从含多拷贝转基因的抗病植株的T1代株系中,分离获得了两株含2个拷贝转基因的抗病植株;其后代中,转基因及抗性遗传遵循孟德尔遗传分离规律,可稳定遗传和表达,获得纯合的抗病转基因株系。对转基因在不同抗病类型植株中整合方式分析显示,抗病植株中多存在转基因的反向串联重复序列。     

翻译和非翻译马铃薯Y病毒外壳蛋白基因介导的抗病性比较

利用RT－PCR方法克隆获得马铃薯Y病毒烟草叶脉坏死株系（PVY^N）的可翻译和不可翻译外壳蛋白（CP）基因,并分别插入pROKⅡ质粒中获得重组双元表达载体。通过根癌农杆菌（Agrobacterium tumefaciens）介导的基因转化方法,将可翻译和不可翻译的PVY^N-CP基因分别导入烟草栽培品种NC89叶片组织中,得到抗卡那霉素的再生植株,对所得到的抗卡那霉素的再生苗进行PCR检测表明,被导入可翻译和不可翻译CP基因的植株分别占卡那霉素抗性植株的95％和98％。攻毒实验表明,两种类型的转基因烟草对PVY^N的抗病性具有相似性,其表现型为：免疫、抗病和感病。免疫型转基因植株的抗病性不受接种物类型及其剂量的影响。Southern印迹杂交结果显示,目的基因已经整合到烟草基因组中。Northern印迹杂交证明,两种类型的CP基因都已在RNA水平上得到了表达,但细胞内RNA的积累量与转基因植株的抗病强度成负相关。Western印迹杂交表明,在表达不可翻译PVY^N－CP基因的转基因植株内 以CP蛋白,而在导入可翻译的PVY^N-CP基因的植株内检测到了CP蛋白,且CP蛋白含量与抗病性不存在正相关。本研究结果证明,表达可翻译与不可翻译PVY^N-CP基因的转基因烟草对PVY^N的抗病性均为RNA介导的抗病性。     

CMV抑制PVYN CP基因沉默及其介导的抗病性

以前曾报道用RNA介导的抗病毒策略,获得了高度抗病的表达马铃薯Y病毒坏死株系外壳蛋白基因(PVY^N CP)的转基因烟草,并对T1、T2代转基因植株进行了遗传和抗病性分析。此次以T,代转基因植株为试验材料,在筛选高度抗病植株并证明其抗病性是基于转基因沉默的基础上,采用Northern杂交的方法,证明CMV侵染抑制了转基因植株中PVY^N CP基因的沉默,而且CMV对PVY^N CP基因沉默的抑制部位是发生在接种后的新生叶上,接种叶及其下部叶片中PVY^N CP基因沉默则未受到影响。采用ELISA方法对CMV PVY^N复合接种的转基因植株进行PVY^N检测,结果表明,接种叶及下部叶没有检测到PVY^N,植株叶片对PVY^N表现为抗病。而在CMV接种后植株新生叶中则检测出了高滴度的PVY^N,植株叶片对PVY^N表现为感病。该文报道了在表达PVY^N CP基因的RNA介导抗性转基因植株中,异源病毒侵染抑制了转基因的沉默,并导致转基因植株的抗病性丧失。     

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。     

转基因植物中RNA介导的病毒抗性研究进展

利用病毒核酸序列培育抗病毒的转基因植物是一个重要的抗病毒基因工程策略。虽然很多种病毒的不同核酸序列已被使用并证明转基因植物有不同程度的抗病毒效果，但其抗病机制大多不清楚。目前至少有两种明显不同的抗病机制类型：一种是要求病毒编码的蛋白质的表达；另一种是仅仅依靠转基因的ＴＮＡ转录。本文综述了这种ＲＮＡ介导的抗性特点、分子生物学、抗病机制，以及与共抑制的相似性，并对ＲＮＡ介导的病毒抗性的意义加以讨论。     

转基因烟草的大田抗病性分析

为了尽快地将抗病转基因烟草品种应用于生产,在选育抗病优良株系的同时,进行了转基因株系的大田抗病性鉴定。结果表明：（１）在田间自然发病情况下,转基因烟草的ＮＣ８９各株系的发病率及病情指数显著低于对照ＮＣ８９,对ＣＭＶ的相对防治效果为５５％－７０％,表现较强的抗病性;同时对ＴＭＶ也有一定的抗病力;（２）转基因烟草的产量、产值也明显高于对照。     

转OsMAPK4基因烟草的抗旱性研究与遗传分析

以低温处理的水稻辽盐241植株叶片总RNA为模板, 用OsMAPK4基因特异引物通过RT-PCR扩增出OsMAPK4基因, 构建了由E12启动子调控的OsMAPK4基因植物表达载体pBME12。通过农杆菌介导法将OsMAPK4基因导入烟草, 筛选获得25株转基因植株。抗旱性研究结果表明, OsMAPK4基因的超量表达提高了T1代转基因植株的抗旱性。卡那霉素抗性在T1代转基因植株中的分离情况表明, 大多数转基因株系符合单基因遗传规律。     

转金属硫蛋白突变体αα的烟草具有较高的重金属抗性

金属硫蛋白（ＭＴ）有α、β两个结构域,其中α结构域优先结合Ｃｄ＾２＋、Ｈｇ＾２＋以α结构域代替β结构域而得到的αα突变体在大肠杆菌构建及表达后,体外实验证明其具有同天然ＭＴ相似的稳定性,但结合重金属的能力稍强于天然ＭＴ。将αα突变体转入植物表达载体,以ＣａＭＶ３５Ｓ为启动子,利用根癌土壤杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍ ｔｕｍｅｆａｃｉｅｎｓ（Ｓｍｉｔｈ ｅｔ Ｔｏｗｎｓｅｎｄ）Ｃｏｎｎ）介导的叶     

表达马铃薯Y病毒外壳蛋白的转基因烟草的抗病性研究

将马铃薯Ｙ病毒中国分离物（ＰＶＴ－Ｃ）的外壳蛋白（ＣＰ）基因,在土壤农杆菌ＬＢＡ４４０４的介导下,转化烟草生产品种ＮＣ８９,获得了６个烟草株系。通过抗性分析发现,６个株系中有一个株系在２００μｇ／ｍｌＰＶＹ－Ｃ的攻毒下,仍未发病,分子检测发现,转基因植物中抗性产生的程度并不是同ＰＶＹ－Ｃ外壳蛋白的表达水平成正相关。     

Characterization of cymbidium mosaic virus coat protein gene and its expression in transgenic tobacco plants

Cymbidium mosaic virus (CyMV) is the most prevalent virus infecting orchids. Here, we report the isolation of partial cDNA clones encoding the genomic RNA of CyMV. Like most of the polyadenylated monopartite positive-strand RNA viruses, the open reading frame (ORF) coding for the viral coat protein (CP) is located at the 3 end. The ORF predicts a polypeptide chain of 220 amino acids with a molecular weight of 23 600. Sequence comparison of this ORF to the CP sequences of potato virus X(PVX) and white clover mosaic virus (WCIMV) revealed a strong amino acid homology in the mid-portion of the CP, but the overall homology was low. The CyMV CP gene was placed downstream of a cauliflower mosaic virus 35S promoter and the chimaeric gene was transferred into Nicotiana benthamiana. Transgenic plants expressing the CyMV CP were protected against CyMV infection.     

应用RNAi技术培育抗TMV病毒转基因烟草

利用烟草花叶病毒(TMV)外壳蛋白基因构建RNAi干涉载体, 通过叶盘法转化至烟草K326 和龙江911两个栽培品种。对转基因株系的荧光定量PCR分析表明, 不同转基因株系的病毒RNA靶序列都得到一定程度的降解, 抗病性鉴定结果证实, 转基因K326和龙江911两个栽培品种的转基因材料分别有83％和90％转基因株系对TMV呈现免疫级抗性。     

Expression of alfalfa mosaic virus coat protein gene confers cross-protection in transgenic tobacco and tomato plants

A chimeric gene encoding the alfalfa mosaic virus (AlMV) coat protein was constructed and introduced into tobacco and tomato plants using Ti plasmid-derived plant transformation vectors. The progeny of the self-fertilized transgenic plants were significantly delayed in symptom development and in some cases completely escaped infection after inoculated with AlMV. The inoculated leaves of the transgenic plants had significantly reduced numbers of lesions and accumulated substantially lower amounts of coat protein due to virus replication than the control plants. These results show that high level expression of the chimeric viral coat protein gene confers protection against AlMV, which differs from other plant viruses in morphology, genome structure, gene expression strategy and early steps in viral replication. Based on our results with AlMV and those reported earlier for tobacco mosaic virus, it appears that genetically engineered cross-protection may be a general method for preventing viral disease in plants.     

Field resistance of transgenic burley tobacco lines and hybrids expressing the tobacco vein mottling virus coat protein gene

Fifty transgenic lines expressing the tobacco vein mottling virus (TVMV) coat protein (CP) gene in five genetic backgrounds were evaluated under field conditions for response to mechanic inoculation with TVMV, tobacco etch virus (TEV) and potato virus Y (PVY). TVMV CP transgenic lines conferred resistance to TVMV, TEV and PVY under field conditions. Combining two strategies, coat protein-mediated resistance (CPMR) coupled with an endogenous resistance gene (Virgin A Mutant, VAM) significantly extended the range and magnitude of virus resistance and provided a potential valuable new source of protection against potyviruses. CP transgenic lines lacking the VAM gene had high resistance to TEV, medium resistance to PVY, and a recovery phenotype to TVMV. A series of hybrids involving transgenic lines were generated and tested under field conditions for response to virus inoculation. One copy of TVMV-CP gene presented in lines homozygous for the VAM gene provided effective resistance to all three potyviruses. These studies also suggested that selection of a suitable recipient genotype was critical and that field evaluation was necessary in order to select elite resistant transgenic lines. Engineering viral CP genes into genotypes possessing some level of virus resistance could be critical to achieve an effective level of resistance.     

Expression of the potato leafroll luteovirus coat protein gene in transgenic potato plants inhibits viral infection

Transgenic potato plants, cultivar Désirée, were produced that contained the coat protein gene of potato leafroll luteovirus (PLRV). The transformed potato plants expressed the PLRV coat protein (CP) RNA sequences but accumulation of coat protein in transgenic tissues could not be detected. Upon inoculation with PLRV, the PLRV CP RNA expressing potato plants showed a reduced rate of virus multiplication.     

Regeneration of transgenic plants of Prunus armeniaca containing the coat protein gene of Plum Pox Virus

Summary A system was developed which allows the transfer of foreign genes into apricot cultivars. We report the transformation and regeneration of Prunus armeniaca plants with Agrobacterium tumefaciens strain LBA 4404 containing various binary plasmids, pBinGUSint, carrying the marker gene ß-glucuronidase (GUS) and pBinPPVm, carrying the coat protein gene of Plum Pox Virus (PPV). The marker gene GUS was used for optical evaluation of the efficiency of the transformation system. The coat protein gene of PPV was used to introduce coat protein mediated resistance against one of the most important pathogens of stone fruit trees in Europe and the whole Mediterranean area. This is the first report of the successful integration of a viral coat protein gene into a fruit tree species, opening a new perspective on the control of the disease.Abbreviations GUS ß-glucuronidase - PPV Plum Pox Virus - BA 6-benzylaminopurine - NPTII neomycin phosphotransferase II - CP coat protein - CaMV Cauliflower Mosaic Virus - P35S 35S promoter - MS Murashige and Skoog - PCR polymerase chain reaction - P/C/I phenol/chloroform/isoamylalcohol - RNase ribonuclease - dNTP deoxyribonucleosidetriphosphate - DMSO dimethyl sulfoxide     

High resistance to plum pox virus (PPV) in transgenic plants containing modified and truncated forms of PPV coat protein gene

Two modified plum pox virus (PPV) coat protein (CP) gene constructs, designed to reduce putative biological risks associated with heteroen capsidation, were integrated into Nicotiana benthamiana plants. The first one contained a deletion of the nucleotides encoding for the DAG amino acid triplet involved in virus aphid-transmission. In the second one, the first 420 nucleotides of the PPV CP gene were removed. We present here the analysis and the selection throughout the generations of PPV-resistant transgenic lines containing these constructs. In most of the lines, a recovery phenotype was observed and was associated with a down-regulation of the transgene products (RNA or protein). We also describe two lines that were highly resistant to PPV. This immunity was correlated with a high number of transgene copies (at least three) and with low or undetectable transgene RNA levels. No heterologous protection was observed against other potyviruses. These characteristics indicate that the described resistance against PPV was RNA-mediated and can be classified as a 'sense suppression' or homology-dependent resistance. Moreover, the production of a highly resistant line containing the PPV CP gene with one third of its 5 end deleted indicated that this region is not necessary to trigger the plant resistance mechanism(s)