不同转化条件对3种农杆菌GFP基因在本氏烟草中瞬时表达的影响

以本氏烟草（Nicotiana benthamiana）为植物材料,分析了不同农杆菌菌株（LBA4404菌株、EHA105菌株、GV3101菌株）、菌液浓度以及侵染时间在瞬时转化过程中对报告基因GFP荧光表达量的影响。结果显示,不同的农杆菌菌株瞬时表达外源基因的最适浓度和时间均有所不同：LBA4404菌株在菌悬液OD₆₀₀值为0.8时所介导的瞬时表达效率最高;而EHA105和GV3101菌株在菌悬液OD₆₀₀值为0.6时可达到最高瞬时表达效率。LBA4404菌株所介导的瞬时表达在农杆菌注射后第2天时表达量最高,而EHA105和GV3101菌株所介导的瞬时表达在农杆菌注射后第4天时表达量最高。不同菌株间比较分析表明,LBA4404菌株所介导的瞬时表达效率最高。上述结果表明,农杆菌菌株以及浓度和侵染时间等转化条件均是影响瞬时表达效率的重要因素。     

Purification of recombinant GFP produced by Agrobacterum-mediated transient expression in Nicotiana excelsior

Green fluorescent protein (GFP) is commonly used as a reporter protein in a wide range of biological experiments. The efficient protocol of Agrobacterium-mediated transient expression in Nicotiana excelsior was applied for quick preparative production of recombinant GFP. The protein purification scheme has been developed and included ammonium sulfate precipitation and Q-sepharose anion-exchange chromatography. It results in obtaining of a fraction with about 85% GFP homogeneity and the protein yield of about 75%.     

大麦黄矮病毒运动蛋白是RNA沉默抑制因子

大麦黄矮病毒(barley yellow dwarf virus,BYDV)属黄症病毒科家族,其基因组包含6个开放阅读框(open reading frames,ORFs).将BYDV的6个基因分别克隆到pWEIMING101载体上,得到重组基因.电击转化农杆菌后,利用农杆菌瞬时表达方法渗透注射转GFP基因的本氏烟草16c植株的叶片,在长波长紫外灯下观察GFP的表达,并通过Northern blot证明所得现象.研究结果表明,BYDV的PAV株系ORF4编码的运动蛋白(movement protein,MP)是RNA沉默抑制因子,其表达可以抑制局部和系统RNA沉默.BYDV-MP与GFP的双链RNA(dsGFP)共表达后仍能抑制RNA沉默,荧光强度与叶片中GFP的mRNA和其沉默降解形成的siRNA的量有对应关系,其N端核定位序列对抑制局部基因沉默起主要作用,第5、6位氨基酸是抑制基因沉默的关键氨基酸.BYDV-MP单独渗透注射的部位均产生细胞死亡.     

Early events in the pathogenicity of Pseudomonas syringae on Nicotiana benthamiana

Conserved microbial molecules known as PAMPs (pathogen-associated molecular patterns) elicit defence responses in plants through extracellular receptor proteins. One important PAMP is the flagellin protein derived from motile bacteria. We show here that the solanaceous species Nicotiana benthamiana perceives the flagellin proteins of both pathogenic and non-host species of Pseudomonas syringae. The response to flagellin required a gene closely related to that encoding the Arabidopsis thaliana flagellin receptor that we designated NbFls2. In addition, silencing of NbFls2 led to increased growth of compatible, non-host and non-pathogenic strains of P. syringae. Thus, flagellin perception restricts growth of P. syringae strains on N. benthamiana. Pathogenic bacteria secrete effector proteins into the plant cell to enhance virulence. We tested the ability of several unrelated effectors to suppress PAMP-mediated defences. The effector proteins AvrPto and AvrPtoB, but not AvrRps4, suppressed all responses tested including the hypersensitive response induced by non-host flagellins and the oomycete elicitor INF1. Strikingly, transient expression of avrPto or avrPtoB stimulated the growth of non-pathogenic Agrobacterium tumefaciensin planta, suggesting that multiplication of this species is also restricted by PAMP perception. Unexpectedly, AvrPtoB but not AvrPto required the defence-associated genes Rar1, Sgt1 and Eds1 for suppression. This observation separates the respective mechanisms of the two effectors, and suggests that AvrPtoB may target the defence machinery directly for its suppressive effect.     

Improved foreign gene expression in plants using a virus-encoded suppressor of RNA silencing modified to be developmentally harmless

Endeavours to obtain elevated and prolonged levels of foreign gene expression in plants are often hampered by the onset of RNA silencing that negatively affects target gene expression. Plant virus-encoded suppressors of RNA silencing are useful tools for counteracting silencing but their wide applicability in transgenic plants is limited because their expression often causes harmful developmental effects. We hypothesized that a previously characterized tombusvirus P19 mutant (P19/R43W), typified by reduced symptomatic effects while maintaining the ability to sequester short-interfering RNAs, could be used to suppress virus-induced RNA silencing without the concomitant developmental effects. To investigate this, transient expression in Nicotiana benthamiana was used to evaluate the ability of P19/R43W to enhance heterologous gene expression. Although less potent than wt-P19, P19/R43W was an effective suppressor when used to enhance protein expression from either a traditional T-DNA expression cassette or using the CPMV-HT expression system. Stable transformation of N.?benthamiana yielded plants that expressed detectable levels of P19/R43W that was functional as a suppressor. Transgenic co-expression of green fluorescent protein (GFP) and P19/R43W also showed elevated accumulation of GFP compared with the levels found in the absence of a suppressor. In all cases, transgenic expression of P19/R43W caused no or minimal morphological defects and plants produced normal-looking flowers and fertile seed. We conclude that the expression of P19/R43W is developmentally harmless to plants while providing a suitable platform for transient or transgenic overexpression of value-added genes in plants with reduced hindrance by RNA silencing.     

Comparison of transient protein expression in tobacco leaves and plant suspension culture

Transient gene expression is being developed to provide a more rapid means of assessing plant tissues as a protein production platform without the labor-intensive and time-consuming process of generating stably transformed transgenic plants. Transient expression of the gus-intron reporter gene was facilitated in three different tobacco species. Two different approaches to T-DNA delivery were compared: (1) infiltration of a prototrophic strain of Agrobacterium into leaves and (2) coculture of plant cell suspension cultures with an Agrobacterium auxotroph. Wounding of plant tissues with a wire brush prior to infiltration had a large positive impact on Nicotianabenthamiana leaves but not for Nicotiana tabacum or Nicotiana glutinosa. The best expression level achieved by leaf infiltration was in N. benthamiana (0.025% total soluble protein). A cell suspension culture line of N. glutinosa achieved an expression level greater than 0.04% TSP. The tissue culture-based technique therefore provides improved levels of transient expression under aseptic conditions to facilitate improvements in expression by control of the plant cell culture and Agrobacterium coculture environments.     

pGD vectors: versatile tools for the expression of green and red fluorescent protein fusions in agroinfiltrated plant leaves

We have constructed a matched set of binary vectors designated pGD, pGDG and pGDR for the expression and co-localization of native proteins and GFP or DsRed fusions in large numbers of plant cells. The utility of these vectors following agroinfiltration into leaves has been demonstrated with four genes from Sonchus yellow net virus, a plant nucleorhabdovirus, and with a nucleolar marker protein. Of the three SYNV proteins tested, sc4 gave identical localization patterns at the cell wall and nucleus when fused to GFP or DsRed. However, some differences in expression patterns were observed depending on whether DsRed or GFP was the fusion partner. In this regard, the DsRed:P fusion showed a similar pattern of localization to GFP:P, but localized foci appeared in the nucleus and near the periphery of the nucleus. Nevertheless, the viral nucleocapsid protein, expressed as a GFP:N fusion, co-localized with DsRed:P in a subnuclear locale in agreement with our previous observations (Goodin et al., 2001). This locale appears to be distinct from the nucleolus as indicated by co-expression of the N protein, DsRed:P and a nucleolar marker AtFib1 fused to GFP. The SYNV M protein, which is believed to be particularly prone to oligomerization, was detectable only as a GFP fusion. Our results indicate that agroinfiltration with bacteria containing the pGD vectors is extremely useful for transient expression of several proteins in a high proportion of the cells of Nicotiana benthamiana leaves. The GFP and DsRed elements incorporated into the pGD system should greatly increase the ease of visualizing co-localization and interactions of proteins in a variety of experimental dicotyledonous hosts.     

The Tobacco mosaic virus 126-kDa protein associated with virus replication and movement suppresses RNA silencing

Systemic symptoms induced on Nicotiana tabacum cv. Xanthi by Tobacco mosaic virus (TMV) are modulated by one or both amino-coterminal viral 126- and 183-kDa proteins: proteins involved in virus replication and cell-to-cell movement. Here we compare the systemic accumulation and gene silencing characteristics of TMV strains and mutants that express altered 126- and 183-kDa proteins and induce varying intensities of systemic symptoms on N. tabacum. Through grafting experiments, it was determined that M(IC)1,3, a mutant of the masked strain of TMV that accumulated locally and induced no systemic symptoms, moved through vascular tissue but failed to accumulate to high levels in systemic leaves. The lack of M(IC)1,3 accumulation in systemic leaves was correlated with RNA silencing activity in this tissue through the appearance of virus-specific, approximately 25-nucleotide RNAs and the loss of fluorescence from leaves of transgenic plants expressing the 126-kDa protein fused with green fluorescent protein (GFP). The ability of TMV strains and mutants altered in the 126-kDa protein open reading frame to cause systemic symptoms was positively correlated with their ability to transiently extend expression of the 126-kDa protein:GFP fusion and transiently suppress the silencing of free GFP in transgenic N. tabacum and transgenic N. benthamiana, respectively. Suppression of GFP silencing in N. benthamiana occurred only where virus accumulated to high levels. Using agroinfiltration assays, it was determined that the 126-kDa protein alone could delay GFP silencing. Based on these results and the known synergies between TMV and other viruses, the mechanism of suppression by the 126-kDa protein is compared with those utilized by other originally characterized suppressors of RNA silencing.     

Transgenic plants regenerated from hairy roots of Nicotiana benthamiana: a promising host for transient expression of foreign proteins

Hairy root cultures of Nicotiana benthamiana have been obtained by co-cultivation of leaf explants with Agrobacterium rhizogenes strain A4 harboring a binary vector plasmid, and transgenic nature of the obtained cultures was confirmed by PCR analysis. Transgenic plants were regenerated from hairy roots. The biomass yield of transgenic plants grown in vitro was almost two-fold higher than those of wild-type N. benthamiana plants. They differed from untransformed plants by short internodes, reinforced stem, thick and wrinkled leaves and more developed root system. The level of Agrobacterium-mediated transient expression of green fluorescent protein (GFP) in the regenerated plants was similar to that of untransformed plants.     

Transient expression of<Emphasis Type="Italic"> Arabidopsis thaliana</Emphasis> ascorbate peroxidase 3 in<Emphasis Type="Italic"> Nicotiana benthamiana</Emphasis> plants infected with recombinant potato virus X

We have explored the transient over-expression of Arabidopsis thaliana ascorbate peroxidase 3 (APX3) in Nicotiana benthamiana using a viral vector based on the potato virus X (PVX). Plants infected with a PVX:APX3 hybrid had a similar progression of viral particles compared to control plants infected with a PVX:GFP hybrid, indicating that infection was not affected by the over-expression of heterologous APX3. Our results also showed that in PVX:APX3-infected plants, the hybrid virus directed a high level of APX3 expression and the recombinant protein was functional, as inferred from the higher APX activity compared to mock and PVX:GFP hybrid-infected plants. The PVX recombinant expression system used is a simple and quick method for transient expression of heterologous APXs, which are expected to suffer specific processing in plant cells.     

百合查尔酮合成酶基因克隆及其转化烟草的花色表达分析

以‘西伯利亚’百合为试材,利用PCR技术克隆了查尔酮合成酶基因(CHS),构建了CHS基因的正义和反义植物表达载体,采用农杆菌介导法转化烟草叶盘,获得了转正义CHS基因的本明烟草18株,转反义CHS基因的普通烟草21株,总转化率为26.0%。高效液相色谱法(HPLC)检测结果显示,正义CHS转基因的本明烟草类黄酮含量升高14.0%～59.7%,反义CHS转基因的普通烟草类黄酮含量降低44.5%～76.4%。花色观察结果显示,正义转基因烟草的花瓣颜色未见变化,反义转基因烟草部分植株的花瓣颜色变浅。研究表明,CHS基因遗传转化是进行花色调控的有效手段之一。     

A systematic study to determine the extent of gene silencing in Nicotiana benthamiana and other Solanaceae species when heterologous gene sequences are used for virus-induced gene silencing

Virus-induced gene silencing (VIGS) is a rapid and robust method for determining and studying the function of plant genes or expressed sequence tags (ESTs). However, only a few plant species are amenable to VIGS. There is a need for a systematic study to identify VIGS-efficient plant species and to determine the extent of homology required between the heterologous genes and their endogenous orthologs for silencing. Two approaches were used. First, the extent of phytoene desaturase (PDS) gene silencing was studied in various Solanaceous plant species using Nicotiana benthamiana NbPDS sequences. In the second approach, PDS sequences from a wide range of plant species were used to silence the PDS gene in N. benthamiana. The results showed that tobacco rattle virus (TRV)-mediated VIGS can be performed in a wide range of Solanaceous plant species and that heterologous gene sequences from far-related plant species can be used to silence their respective orthologs in the VIGS-efficient plant N. benthamiana. A correlation was not always found between gene silencing efficiency and percentage homology of the heterologous gene sequence with the endogenous gene sequence. It was concluded that a 21-nucleotide stretch of 100% identity between the heterologous and endogenous gene sequences is not absolutely required for gene silencing.     

Use of green fluorescent protein to quantify the growth of Colletotrichum during infection of tobacco

To develop a quantitative assay of fungal growth inside plant tissues, strains of Colletotrichum destructivum and Colletotrichum orbiculare were transformed with a modified green fluorescent protein (GFP) gene fused with a glyceraldehyde-3-phosphate dehydrogenase promoter from Aspergillus nidulans. Transformants expressed GFP in culture and had the same growth rate and general appearance as the wild type. GFP was observed in all fungal structures during infection of leaves of Nicotiana benthamiana, except for the melanized appressoria and setae. The timing and appearance of the fungal structures in the host appeared to be identical to that of the wild type. GFP accumulation in inoculated leaves of N. benthamiana was quantified in leaf extracts using a fluorescence microplate reader, and the quantity of fluorescence was strongly correlated with the growth of the fungus as measured by the amount of fungal actin gene expression using Northern blot hybridizations. These results demonstrated that assaying green fluorescence levels from a GFP-transformed fungus is an accurate, fast and easy means of quantifying fungal growth inside host plant cells.     

绿色荧光蛋白标记检测鸦胆子素D抗TMV活性

以绿色荧光蛋白（green fluorescent protein, GFP）为报告基因,将含TMV表达载体的质粒p35S-30B：GFP转化农杆菌EHA 105,通过渗透法把经MMA诱导后的农杆菌悬浮液注射到本氏烟叶片内,测定了鸦胆子素D （Bruceine D） 对烟草植株内TMV的增殖和运动的抑制作用;通过PEG介导法把p35S-30B：GFP转化到本氏烟叶肉细胞原生质体内,测定了Bruceine D对烟草原生质体中TMV增殖的抑制效果.结果表明,在10 μg/mL浓度下,Bruceine D不仅可抑制烟草叶肉细胞原生质体中TMV的增殖,还可以抑制烟草接种叶中TMV向茎部及植株上部叶片移动,且对寄主植物不造成明显的毒害.     

烟草曲茎病毒卫星DNA在不同寄主中的分子变异比较

近年来对一些单组分菜豆金色花叶病毒属病毒(begomoviruses)的研究发现,这类单组分begomoviruses伴随着一种新型卫星分子-DNAβ。对我国云南省发生的双生病毒的研究表明,云南begomoviruses普遍伴随DNAβ分子,DNAβ分子与致病性紧密相关,且begomoviruses与其伴随的卫星DNA的是共进化的。为了弄清卫星DNAβ是否存在类似于卫星RNA的高度变异,将烟草曲茎病毒(Tobacco curly shoot virus,TbCSV)及其伴随卫星DNAβ的侵染性克隆共同接种本氏烟(Nicotiana benthamiana)和心叶烟(N．glutinosa),对TbCSV卫星DNAβ在不同寄主中的分子变异进行了比较。     

Nicotiana benthamiana resistance to non-adapted Melon necrotic spot virus results from an incompatible interaction between virus RNA and translation initiation factor 4E

Nicotiana benthamiana has been described as non-host for Melon necrotic spot virus (MNSV). We investigated the basis of this resistance using the unique opportunity provided by strain MNSV-264, a recombinant virus that is able to overcome the resistance. Analysis of chimeric MNSV mutants showed that virulence in N. benthamiana is conferred by a 49 nucleotide section of the MNSV-264 3'-UTR, which acts in this host as a cap-independent translational enhancer (3'-CITE). Although the 3'-CITE of non-adapted MNSV-Mα5 is active in susceptible melon, it does not promote efficient translation in N. benthamiana, thus preventing expression of proteins required for virus replication. However, MNSV-Mα5 gains the ability to multiply in N. benthamiana cells if eIF4E from a susceptible melon variety (Cm-eIF4E-S) is supplied in trans. These data show that N. benthamiana resistance to MNSV-Mα5 results from incompatibility between the MNSV-Mα5 3'-CITE and N. benthamiana eIF4E in initiating efficient translation of the viral genome. Therefore, non-host resistance conferred by the inability of a host susceptibility factor to support viral multiplication may be a possible mechanism for this type of resistance to viruses.     

The nucleoprotein of Tomato spotted wilt virus as protein tag for easy purification and enhanced production of recombinant proteins in plants

Upon infection, Tomato spotted wilt virus (TSWV) forms ribonucleoprotein particles (RNPs) that consist of nucleoprotein (N) and viral RNA. These aggregates result from the homopolymerization of the N protein, and are highly stable in plant cells. These properties feature the N protein as a potentially useful protein fusion partner. To evaluate this potential, the N protein was fused to the Aequorea victoria green fluorescent protein (GFP), either at the amino or carboxy terminus, and expressed in plants from binary vectors in Nicotiana benthamiana leaves were infiltrated with Agrobacterium tumefaciens and evaluated after 4 days, revealing an intense GFP fluorescence under UV light. Microscopic analysis revealed that upon expression of the GFP:N fusion a small number of large aggregates were formed, whereas N:GFP expression led to a large number of smaller aggregates scattered throughout the cytoplasm. A simple purification method was tested, based on centrifugation and filtration, yielding a gross extract that contained large amounts of N:GFP aggregates, as confirmed by GFP fluorescence and Western blot analysis. These results show that the homopolymerization properties of the N protein can be used as a fast and simple way to purify large amounts of proteins from plants.     

A Begomovirus DNAbeta-encoded protein binds DNA, functions as a suppressor of RNA silencing, and targets the cell nucleus

Our previous results demonstrated that the DNAbeta satellite (Y10beta) associated with Tomato yellow leaf curl China virus Y10 isolate (TYLCCNV-Y10) is essential for induction of leaf curl symptoms in plants and that transgenic expression of its betaC1 gene in Nicotiana plants induces virus-like symptoms. In the present study, in vitro DNA binding activity of the betaC1 proteins of Y10beta and DNAbeta (Y35beta) found in the Tobacco curly shoot virus Y35 isolate (TbCSV-Y35) were studied following their expression as six-His fusion proteins in Escherichia coli. Electrophoretic mobility shift assays and UV cross-linking experiments revealed that betaC1 proteins could bind both single-stranded and double-stranded DNA without size or sequence specificity. Suppression of green fluorescent protein (GFP) transgene silencing was observed with the new leaves of GFP-expressing Nicotiana benthamiana plants coinoculated by TYLCCNV-Y10 plus Y10beta or by TbCSV-Y35 plus Y35beta. In a patch agroinfiltration assay, the transiently expressed betaC1 gene of Y10beta or Y35beta was able to suppress host RNA silencing activities and permitted the accumulation of high levels of GFP mRNA in the infiltrated leaf patches of GFP transgenic N. benthamiana plants. The betaC1 protein of Y10beta accumulated primarily in the nuclei of plant and insect cells when fused with beta-glucuronidase or GFP and immunogold labeling showed that the betaC1 protein is present in the nuclei of infected N. benthamiana plants. A mutant version of Y10beta carrying the mutations within the putative nuclear localization sequence of the Y10 betaC1 protein failed to induce disease symptoms, suppress RNA silencing, or accumulate in the nucleus, suggesting that nuclear localization of the betaC1 protein is a key requirement for symptom induction and silencing suppression.