High frequency induction of RNA-mediated resistance against Cucumber mosaic virus using inverted repeat constructs

The application of RNA-mediated resistance against Cucumber mosaic virus (CMV) by using single transgene constructs generally results in only a small portion of resistant individuals. Inverted repeat constructs encoding self-complementary double-stranded RNA have been demonstrated a potential way to obtain RNA-mediated resistance at high efficiency. To test this observation as a possible method for high frequency induction of CMV resistance, Nicotiana benthamiana plants were transformed with transgenes designed to produce double strand RNA molecules of CMV RNA 2 or coat protein (CP) gene sequences. Seventy-five percent of the tested R₀ plants transformed with an RNA 2-derived inverted repeat construct (1534 nt CMV sequence) showed extreme resistance to CMV, while a lower percentage of resistance (30%) was observed in R₀ lines transformed with a similar construct of a shorter viral RNA 2 sequence (490 nt). The resistance level conferred by CP sequences was also efficient by using a dsRNA construct, reaching a level of 50%. Self-pollinated (S₁) progenies obtained from most resistant R₀ plants all showed resistance levels of 100%, perfectly correlating with the expression of transgenic siRNAs. The results indicate that the use of inverted repeat viral transgenes is a highly efficient approach to obtain CMV resistant transgenic plants. Consequently, only a handful of transgenic plants will have to be generated using such constructs for successful resistance, which enables the implementation of this protocol for crops that are difficult to transform, such as ornamental plants in which CMV is an important pathogen.     

Transgenic <Emphasis Type="Italic">Nicotiana benthamiana</Emphasis> plants resistant to cucumber green mottle mosaic virus based on RNA silencing

RNA silencing technology was used to confer resistance to cucumber green mottle mosaic virus (CGMMV). Nicotiana benthamiana was transformed with a transgene designed to produce an inverted repeat RNA containing CGMMV-coat protein gene (CP) sequences, which were separated by an intron sequence, under the control of the cauliflower mosaic virus 35S promoter. We attempted to confirm the resistance of seven independent transgenic lines; five lines showed resistance to CGMMV infection. The systemic spread of virus was prevented after the inoculation of CGMMV, and the CP-specific short interfering RNA (siRNA) was detected in resistant lines. Thus, the resistance against CGMMV through RNA silencing is strong and efficient.     

烟草花叶病毒和黄瓜花叶病毒双价RNA沉默抗病载体的快速构建*

利用重组PCR技术将烟草花叶病毒(TMV)部分移动蛋白基因（△MP）和黄瓜花叶病毒（CMV）部分复制酶基因（△Rep）连接起来,获得全长约1000 bp的MP-Rep融合基因,将所得融合基因以反向重复的方式与大豆内含子相连,并定向插入到植物表达载体pBIN438上35S启动子下游,构建了含两种不同病毒来源基因的植物表达载体pBIN438-MP-Rep（i/r）。酶切和PCR鉴定证明所构建的载体与预期的设计完全一致。该研究结果为利用RNA沉默原理进行植物广谱抗病研究奠定了基础。     

Robust RNAi-mediated resistance to infection of seven potyvirids in soybean expressing an intron hairpin <Emphasis Type="Italic">NIb</Emphasis> RNA

Viral pathogens, such as soybean mosaic virus (SMV), are a major constraint in soybean production and often cause significant yield loss and quality deterioration. Engineering resistance by RNAi-mediated gene silencing is a powerful strategy for controlling viral diseases. In this study, a 248-bp inverted repeat of the replicase (nuclear inclusion b, NIb) gene was isolated from the SMV SC3 strain, driven by the leaf-specific rbcS2 promoter from Phaseolus vulgaris, and introduced into soybean. The transgenic lines had significantly lower average disease indices (ranging from 2.14 to 12.35) than did the non-transformed (NT) control plants in three consecutive generations, exhibiting a stable and significantly enhanced resistance to the SMV SC3 strain under field conditions. Furthermore, seed mottling did not occur in transgenic seeds, whereas the NT plants produced ~90% mottled seeds. Virus resistance spectrum screening showed that the greenhouse-grown transgenic lines exhibited robust resistance to five SMV strains (SC3, SC7, SC15, SC18, and a recombinant SMV), bean common mosaic virus, and watermelon mosaic virus. Nevertheless, no significantly enhanced resistance to bean pod mottle virus (BPMV, Comovirus) was observed in the transgenic lines relative to their NT counterparts. Consistent with the results of resistance evaluation, the accumulation of each potyvirid (but not of BPMV) was significantly inhibited in the transgenic plants relative to the NT controls as confirmed by quantitative real-time (qRT-PCR) and double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA). These results demonstrate that robust RNAi-mediated resistance to multiple potyvirids in soybean was conferred by expressing an intron hairpin SMV NIb RNA.     

Resistance to wheat streak mosaic virus in transgenic wheat expressing the viral replicase (NIb) gene

Wheat (Triticum aestivum L. cv. Hi-Line) immature embryos were transformed with the replicase gene (NIb) of wheat streak mosaic virus (WSMV) by the biolistic method. Six independent transgenic plant lines were analyzed for transgene expression and for resistance to mechanical inoculation of WSMV at R3 or R4 generation. Four out of the six lines showed various degree of resistance to WSMV. These lines had initially milder symptoms than controls, and the new growth ranged from milder symptoms, a substantial delay in symptom development, or asymptomatic. Two lines displayed higher resistance with very mild virus symptoms after inoculation and the new growth of 72% and 32% plants from these lines were asymptomatic and had no detectable virus through the plant life cycle. Interestingly, five out of the six transgenic lines had no detectable transgene mRNA expression by RNA gel blot hybridization. The only line that had detectable transgene mRNA did not show delay in the symptom development but had overall milder symptom to the virus.     

Virus Movement Protein Gene Mediated Resistance Against Cucumber Mosaic Virus Infection

Tobacco (Nicotiana tabactum L. ) "NC89" plants were transformed with deletion mutant of cucumber mosaic virus (CMV) movement protein (MP) gene and full-length CMV MP gene, respectively. The transformed plants were analyzed with polymerase chain reaction (PCR), PCR-Southem, Southern and Western blots. R0 generation of the transgenic plants were inoculated with CMV. Five out of 10 lines of tobacco plants (BMPK) transformed with CMV MP deletion mutant gene showed high resistance to CMV infection and remained symptomless for up to 50 days post-inoculation. In contrast, tobacco plants (BMPR) transformed with full-length CMV MP gene did not show resistance to CMV infection. However, most of the infected full-length CMV MP gene transgenic plants recovered by showing none or very mild mosaic symptoms in 40 days post-inoculation. The results of R1 generation of the BMPK transgenic plants tested under field conditions showed that all 5 lines of transgenic plants could delay the virus disease development.     

利用转hpRNA基因水稻抗水稻矮缩病毒

具有发夹结构的双链RNA(hairpin RNA,hpRNA)能高效诱导转录后基因沉默的发生.以水稻(Oryza sativaL.)矮缩病毒(RDV)基因组中第八片段编码区128～754 bp的序列为臂构建hpRNA,并克隆到植物表达载体pROK-2上.通过农杆菌介导的方法转化水稻"中花11".Southern blot分析表明,共获得12株阳性转化体.用带有RDV的叶蝉(Nephotettix cincticeps)接种Tl代转hpRNA水稻,结果表明转基因水稻对RDV具有高抗性或表现为症状延迟.而相同序列的有义链的转基因水稻和空载体的转基因水稻表现为典型的RDV侵染症状.HpRNA在转基因水稻中对RDV高抗性发挥重要作用.     

Leaf proteins in transgenic tobacco plants, expressing dual-stranded RNA in viral infection

Generation of transgenic tobacco plants, producing double-stranded RNA with no homology to tobacco genome sequences is reported. The RNA synthesis is mediated by a construct containing an inverted repeat of the pBR322 tetracycline-resistance gene fragment under control of the 35S CaMV promoter. Analysis of the resistance of transgenic plants to the tobacco mosaic virus revealed the changes in the protein spectra of the infected plants. The 25- and 30-kDa proteins found were not detected in the extracts of normal plants. Amino acid sequencing of the 30-kDa peptide with subsequent computer database search revealed the homology of this protein to the hydrolases belonging to the group of plant beta-glucanases. The role of the novel polypeptides in an increase of the resistance of transgenic plants to TMV, and also the possibility of the regulation of their expression by nonhomologous dsRNA are discussed.     

Resistance to Cucumber mosaic virus in Gladiolus plants transformed with either a defective replicase or coat protein subgroup II gene from Cucumber mosaic virus

Transgenic Gladiolus plants that contain either Cucumber mosaic virus (CMV) subgroup I coat protein, CMV subgroup II coat protein, CMV replicase, a combination of the CMV subgroups I and II coat proteins, or a combination of the CMV subgroup II coat protein and replicase genes were developed. These plants were multiplied in vitro and challenged with purified CMV isolated from Gladiolus using a hand-held gene gun. Three out of 19 independently transformed plants expressing the replicase gene under control of the duplicated CaMV 35S promoter were found to be resistant to CMV subgroup I. Three out of 21 independently transformed plants with the CMV subgroup II coat protein gene under control of the Arabidopsis UBQ3 promoter were resistant to CMV subgroup II. Eighteen independently transformed plants with either the CMV subgroup I coat protein or a combination of CMV subgroups I and II coat proteins were challenged and found to be susceptible to both CMV subgroups I or II. Virus resistant plants with the CMV replicase transgene expressed much lower RNA levels than resistant plants expressing the CMV subgroup II coat protein. This work will facilitate the evaluation of virus resistance in transgenic Gladiolus plants to yield improved floral quality and productivity.     

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。     

Cucumber mosaic virus coat protein-mediated protection

Transgenic tobacco plants (CP +) that express the coat protein gene of cucumber mosaic virus (CMV)-Y strain were highly protected from infection with either CMV virions or CMV RNA, while transgenic protoplasts were also protected from infection with CMV virions but not with CMV RNA. CP + plants showed greater susceptibility to infection with satellite RNA-free CMV-Y than CMV-Y containing satellite RNA. At temperatures above 30°C, CP + plants did not or poorly resist infection with CMV. Elevated temperature affected the accumulation of CP rather than its mRNA, suggesting that CP molecules are mainly involved in virus resistance in CP + plants.