Evidence that soilborne wheat mosaic virus moves long distance through the xylem in wheat

Summary Soilborne wheat mosaic virus (SBWMV) is a member of the genusFurovirus of plant viruses. SBWMV is transmitted to wheat roots by the plasmodiophorid vectorPolymyxa graminis. Experiments were conducted to determine the path for SBWMV transport from roots to leaves. The results of immunogold labeling suggest that SBWMV enters and moves long distance through the xylem. SBWMV may enter primary xylem elements before cell death occurs and then move upward in the plant after the xylem has matured into hollow vessels. There is also evidence for lateral movement between adjacent xylem vessels.Abbreviations SBWMV Soilborne wheat mosaic virus - TMV Tobacco mosaic virus - BMV Brome mosaic virus - PMTV Potato mop-top virus - BNYVV Beet necrotic yellow vein virus - WSSMV Wheat spindle streak mosaic virus - WSMV Wheat streak mosaic virus     

检疫性有害生物李痘病毒生物学特性及预防控制技术

李痘病毒最早发现于欧洲东部的保加利亚,是一种严重危害核果类果树的病毒,为欧洲和地中海植物保护组织A2类检疫性有害生物,泛非植物检疫理事会和北美植物保护组织检疫性有害生物,我国于2007年将其列入《中华人民共和国进境植物检疫性有害生物名录》。李痘病毒主要通过寄主植物繁殖材料(种苗、砧木、芽条等)的贸易活动进行远距离传播,或借助带毒媒介蚜虫进行短距离扩散。截至2018年,李痘病毒已在全世界56个国家和地区发生,我国于2004年在湖南发现其危害杏树。本文从李痘病毒的生物学特性、传播扩散途径、诊断检测方法及预防控制技术等方面进行阐述,以期为防止其再次入侵和进一步传播扩散提供参考。     

Phylogeny of <Emphasis Type="Italic">Banana Streak Virus</Emphasis> Reveals Recent and Repetitive Endogenization in the Genome of Its Banana Host (<Emphasis Type="Italic">Musa</Emphasis> sp.)

Banana streak virus (BSV) is a plant dsDNA pararetrovirus (family Caulimoviridae, genus badnavirus). Although integration is not an essential step in the BSV replication cycle, the nuclear genome of banana (Musa sp.) contains BSV endogenous pararetrovirus sequences (BSV EPRVs). Some BSV EPRVs are infectious by reconstituting a functional viral genome. Recent studies revealed a large molecular diversity of episomal BSV viruses (i.e., nonintegrated) while others focused on BSV EPRV sequences only. In this study, the evolutionary history of badnavirus integration in banana was inferred from phylogenetic relationships between BSV and BSV EPRVs. The relative evolution rates and selective pressures (d_N/d_S ratio) were also compared between endogenous and episomal viral sequences. At least 27 recent independent integration events occurred after the divergence of three banana species, indicating that viral integration is a recent and frequent phenomenon. Relaxation of selective pressure on badnaviral sequences that experienced neutral evolution after integration in the plant genome was recorded. Additionally, a significant decrease (35%) in the EPRV evolution rate was observed compared to BSV, reflecting the difference in the evolution rate between episomal dsDNA viruses and plant genome. The comparison of our results with the evolution rate of the Musa genome and other reverse-transcribing viruses suggests that EPRVs play an active role in episomal BSV diversity and evolution.     

Coat protein-mediated resistance to Turnip mosaic virus in oilseed rape (Brassica napus)

Oilseed rape (Brassica napus) lines transformedwith the coat protein (CP) gene of Turnip mosaic virus(TuMV) were used to determine the effectiveness of resistance to TuMV mediatedby CP RNA or coat protein. Lines with one, two, or more copies of transgeneswere produced. T₂ and T₃ lines containing the CP genewitha functional start codon synthesised coat protein and showed high, but variablelevels of resistance to TuMV (21–96% resistant plants per line). TheT₁ and T₂ progeny of all lines carrying the CP gene withamutated start codon so that RNA but not protein was expressed, were assusceptible to TuMV as controls. Thus, in these experiments we were able toinduce CP-mediated resistance, but not RNA-mediated resistance.     

Engineering tomato for resistance to tomato leaf curl disease using viral <Emphasis Type="Italic">rep</Emphasis> gene sequences

Transgenic tomato resistant to tomato leaf curl disease (ToLCD) using replicase (rep) gene sequences of Tomato leaf curl virus in antisense orientation were developed via Agrobacterium-mediated transformation. A binary vector carrying the antisense rep gene (untranslatable full length sequence, 1086 bp) along with the npt II gene was used for transformation. High level of resistance and inheritability of the transgene was observed up to T₂ stage following challenge inoculation with the virus. The mechanism of resistance appears RNA-mediated, since the plants carried the untranslatable antisense rep gene. Progeny analysis of these plants showed classical Mendelian pattern of inheritance in two of the six transgenic lines having single transgene insertion.     

Identification of a <Emphasis Type="Italic">Lotus</Emphasis> viral pathogen

A virus collection was used to identify a pathogen suitable for laboratory use with the model legume Lotus japonicus. Several Lotus species or L. japonicus accessions were tested and various degrees of susceptibility to the Arabis mosaic virus derived from barley (ArMV-ba) were found. Virus multiplication and persistence in Lotus tissue were examined, as well as plant responses to it. Sensitivity to the virus among the accessions and species is discussed in light of their geographical origin. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Mapping and diagnostic marker development for Soil-borne cereal mosaic virus resistance in bread wheat

Monogenically-inherited resistance to Soil-borne cereal mosaic virus (SBCMV) in hexaploid bread wheat cultivars ‘Tremie’ and ‘Claire’ was mapped on chromosome 5D. The two closest flanking markers identified in the Claire-derived mapping population, Xgwm469-5D and E37M49, are linked to the resistance locus at distances of 1 and 9 cm, respectively. Xgwm469-5D co-segregated with the SBCMV resistance in the Tremie-derived population and with the recently identified Sbm1 locus in the cv. Cadenza. This suggested that Tremie and Claire carry a resistance gene allelic to Sbm1, or one closely linked to it. The diagnostic value of Xgwm469-5D was assessed using a collection of SBCMV resistant and susceptible cultivars. Importantly, all susceptible genotypes carried a null allele of Xgwm469-5D, whereas resistant genotypes presumably related to either Claire and Tremie or Cadenza revealed a 152 or 154 bp allele of Xgwm469-5D, respectively. Therefore, Xgwm469-5D is well suited for marker assisted selection for SBCMV resistance.     

Genetic transformation of sweet orange with the coat protein gene of <Emphasis Type="Italic">Citrus psorosis virus</Emphasis> and evaluation of resistance against the virus

Citrus psorosis is a serious viral disease affecting citrus trees in many countries. Its causal agent is Citrus psorosis virus (CPsV), the type member of genus Ophiovirus. CPsV infects most important citrus varieties, including oranges, mandarins and grapefruits, as well as hybrids and citrus relatives used as rootstocks. Certification programs have not been sufficient to control the disease and no sources of natural resistance have been found. Pathogen-derived resistance (PDR) can provide an efficient alternative to control viral diseases in their hosts. For this purpose, we have produced 21 independent lines of sweet orange expressing the coat protein gene of CPsV and five of them were challenged with the homologous CPV 4 isolate. Two different viral loads were evaluated to challenge the transgenic plants, but so far, no resistance or tolerance has been found in any line after 1 year of observations. In contrast, after inoculation all lines showed characteristic symptoms of psorosis in the greenhouse. The transgenic lines expressed low and variable amounts of the cp gene and no correlation was found between copy number and transgene expression. One line contained three copies of the cp gene, expressed low amounts of the mRNA and no coat protein. The ORF was cytosine methylated suggesting a PTGS mechanism, although the transformant failed to protect against the viral load used. Possible causes for the failed protection against the CPsV are discussed.     

表达新冠病毒S基因重组狂犬病病毒的构建及其免疫原性

【背景】新型冠状病毒肺炎(coronavirus disease 2019,COVID-19)在全球流行已近3年,除对人类造成了巨大伤害,也影响了人类的伴侣动物。人的COVID-19疫苗已在全球应用,但动物用的新冠病毒疫苗却鲜有报道。【目的】研制兽用新冠病毒(severe acute respiratory syndrome coronavirus 2,SARS-CoV-2)和狂犬病病毒(rabies virus,RABV)的二联苗。【方法】将合成的SARS-CoV-2 S基因和S1基因分别克隆至RABV弱毒疫苗株rHEP-Flury基因组G与L基因间,并将2个重组质粒分别与辅助质粒共转染至BHK-21细胞中,拯救重组病毒rHEP-nCOV-S和rHEP-nCOV-S1。通过RT-PCR、Western blotting和荧光抗体染色,验证重组病毒、确证S和S1蛋白在RABV中成功表达。再将重组病毒接种NA细胞及成年小白鼠,测定病毒的体外生长特性、重组病毒的致病性及免疫原性。【结果】免疫荧光结果显示,转染7d后细胞上清均出现了绿色免疫荧光,表明已成功拯救嵌合SARS-CoV-2S和S1基因的重组病毒RABV rHEP-nCOV-S和rHEP-nCOV-S1,并且rHEP-nCOV-S1的增殖和扩散能力强于亲本株rHEP-Flury,但rHEP-nCOV-S与亲本株无显著差异。Western blotting结果显示,在目的位置处均出现72kDa和144kDa特异性条带,表明S和S1蛋白在重组RABV中高效表达。重组病毒免疫6周KM小鼠后,小鼠的体重变化与亲本RABV基本一致,重组病毒诱导小鼠产生狂犬中和抗体。【结论】本研究拯救出了嵌合SARS-CoV-2 S/S1基因的重组RABV,为动物COVID-19载体疫苗的研发奠定了基础。     

Analogues of virus resistance genes map to QTLs for resistance to sharka disease in <Emphasis Type="Italic">Prunus davidiana</Emphasis>

Plum pox virus (PPV), the causative agent of sharka disease in Prunoideae, is one of the most serious problems affecting stone fruit production in Europe and America. Resistance to PPV was previously described in a Prunus davidiana clone, P1908, and introduced into peach (Prunus persica) genotypes. Genetic resistance to PPV displays a complex pattern of quantitative inheritance. An analysis of quantitative trait loci (QTLs) for resistance was performed on an F1 interspecific peach population obtained from a cross between the susceptible nectarine cultivar Summergrand and P. davidiana. The hybrids were graft-inoculated with PPV in duplicate following a classical procedure. The incidence of infection was evaluated four times, over two vegetative cycles, by symptom observation and enzyme-linked immunoadsorbent assays (ELISA). Restriction of systemic downward movement of the PPV virus was also evaluated by testing the susceptible rootstocks. Using both analysis of variance and non-parametric tests, six genomic regions involved in PPV resistance were detected. Depending on the scoring data considered, between 22 and 51% of the phenotypic variance could be explained by the quantitative model. One QTL, located in the distal region of linkage group 1, maps in a genomic region that is syntenic to the location of a resistance gene previously identified in the apricot cv. Goldrich. Some QTLs appeared to be temporally specific, reflecting the environmental dependence of PPV-resistance scoring. Candidate gene fragments were amplified by PCR, isolated and mapped on the peach interspecific linkage map. We report here the co-localization of three analogues of virus resistance genes with two distinct genomic regions linked to PPV resistance in P. davidiana.Electronic Supplementary Material Supplementary material is available for this article at     

Characterization of resistance mechanism in transgenic Nicotiana benthamiana containing Turnip crinkle virus coat protein

Two transgenic lines, of Nicotiana benthamiana expressing Turnip crinkle virus (TCV)-coat protein (CP) gene with contrasting phenotype, the highest (#3) and the lowest (#18) CP expressers, were selected and challenged with the homologous TCV. The former, the highest expresser, showed nearly five times more CP expression than the latter. Progenies of #3 and #18 lines showed 30 and 100% infection rates, respectively. The infected progenies of #3 line showed mild and delayed symptom with TCV. This is a coat protein-mediated resistance (CP-MR), and its resistance level is directly proportional to CP transgene expression. However, CP-MR of the transgenic plants was specific only for TCV but not for heterologous viruses. Newly growing leaves of those infected progenies of #3 line did not show any visible symptoms at 4-week post-inoculation (wpi) with TCV, suggesting a reversal from infection. This was confirmed by RT-PCR analysis with the disappearance of the target at 4 wpi. This is a case of RNA-mediated resistance, and a threshold level of transgene expression may be needed to achieve the silent state. To confirm the RNA silencing, we infiltrated Agrobacterium carrying TCV-CP into leaves of progenies of #3 and performed RT-PCR analysis. The results indicate that TCV-CP’s suppressor activity against RNA silencing itself can be silenced by the homologous expression of TCV-CP in the transgenic plants. The transgenic plants containing TCV-CP seem to be a model system to study viral protection mediated by a combination of protein and RNA silencing. Ayyappan Vasudevan and Tae-Kyun Oh have contributed equally in this study.     

Transgenic resistance to Mirafiori lettuce virus in lettuce carrying inverted repeats of the viral coat protein gene

Mirafiori lettuce virus (MiLV), a plant RNA virus belonging to the genus Ophiovirus, is considered to be a causal agent of lettuce big-vein disease. In this study, inverted repeats of a fragment of the coat protein (CP) gene of MiLV in a binary vector pBI121 were transferred via Agrobacterium tumefaciens-mediated transformation into lettuce (Lactuca sativa L.) in order to generate MiLV-resistant lettuce. Forty T₁ lines were analyzed for resistance to MiLV by detecting MiLV in leaves, and two lines (lines 408 and 495) were selected as resistant to MiLV. Both lines were susceptible to Lettuce big-vein associated virus (LBVaV), and line 495 showed higher resistance to MiLV than line 408. Further analysis indicated that line 495 showed resistance to big-vein symptoms expression. Small interfering RNA (siRNA) molecules derived from the transgene were detected in plants of line 495. MiLV was detected in roots but not in leaves of line 495 plants after MiLV inoculation, suggesting that resistance to MiLV is less effective in roots than in leaves.     

Development of <Emphasis Type="Italic">Cucumber mosaic virus</Emphasis> as a vector modifiable for different host species to produce therapeutic proteins

We have developed Cucumber mosaic virus (CMV) as a plant virus vector especially for production of pharmaceutical proteins. The CMV vector is a vector modifiable for different host plants and does not require further engineering steps. CMV contains three genomic RNA molecules (RNAs 1–3) necessary for infectivity. With this system, instead of creating different vector constructs for each plant we use, we take advantage of the formation of pseudrecombinants between two CMV isolates by simply reassembling a vector construct (RNA 2 base) and an RNA molecule containing the host determinant (mostly RNA 3). In this study, the gene for acidic fibroblast growth factor (aFGF), one of the human cytokines, was cloned under the control of the subgenomic promoter for RNA 4A of the CMV-based vector, C2-H1. Infected Nicotiana benthamiana plants produced aFGF at levels up to 5–8% of the total soluble protein. The tobacco-produced aFGF was purified, and its biological activity was confirmed. Using this system, which provides a versatile and viable strategy for the production of therapeutic proteins in plants, we also demonstrated a high level of aFGF in Glycine max (soybean) and Arabidopsis thaliana.     

Induction of a cytosolic pyruvate kinase 1 gene during the resistance response to Tobacco mosaic virus in Capsicum annuum

Hot pepper (Capsicum annuum L. cv. Bugang) plants exhibit a hypersensitive response (HR) upon infection by Tobacco mosaic virus (TMV) pathotype P₀. Previously, to elucidate molecular mechanism that underlies this resistance, hot pepper cv. Bugang leaves were inoculated with TMV-P₀ and genes specifically up-regulated during the HR were isolated by microarray analysis. One of the clones, Capsicum annuum cytosolic pyruvate kinase 1 (CaPK _c 1) gene was increased specifically in the incompatible interaction with TMV-P₀. The expression of CaPK _c 1 gene was also triggered not only by various hormones such as salicylic acid (SA), ethylene, and methyl jasmonate (MeJA), but also NaCl and wounding. These results suggest that CaPK _c 1 responds to several defense-related abiotic stresses in addition to TMV infection. The nucleotide sequence data reported in this paper were submitted to the EMBL, GenBank and DDBJ Nucleotide Sequence Databases under the accession number DQ114474.     

Construction of the Bac-to-Bac system of <Emphasis Type="Italic">Bombyx mori</Emphasis> nucleopolyhedroviru

To construct the Bac-to-Bac expression system of Bombyx mori nucleopolyhedrovirus (BmNPV), a transfer vector was constructed which contained an Escherichia coli (E. coli) mini-F replicon and a lacZ: attTN7: lacZ cassette within the upstream and downstream regions of the BmNPV polyhedrin gene. B. mori larvae were cotransfected with wild-type BmNPV genomic DNA and the transfer vector through subcutaneous injection to generate recombinant viruses by homologous recombination in vivo. The genomic DNA of budded viruses extracted from the hemolymph of the transfected larvae was used to transform E. coli DH10B. Recombinant bacmids were screened by kanamycin resistance, PCR and restriction enzyme (REN) digestion. One of the bacmid colonies, BmBacJS13, which had similar REN profiles to that of wild-type BmNPV, was selected for further research. To investigate the infectivity of BmBacJS13, the polyhedrin gene was introduced into the bacmid and the resultant recombinant (BmBacJS13-ph) was transfected to BmN cells. The budded viruses were collected from the supernatant of the transfected cells and used for infecting BmN cells. Growth curve analysis indicated that BmBacJS13-ph had a similar growth curve to that of wild-type BmNPV. Bio-assays indicated that BmBacJS13-ph was also infectious to B. mori larvae. Foundation items: 973 (2003CB114202); Programme Strategic Scientific Alliances between China and the Netherlands (2004CB720404); National Natural Fundation of China project (30630002)     

Effects of Recombinant Baculoviruses on Three Nontarget Heliothine Predators

Genetically engineered baculoviruses, relative to their wild-type progenitors, have successfully improved the time-to-kill of these arthropod-specific biopesticides. Beneficial arthropods that prey on targeted pest insects are likely the first nontarget organisms to be adversely affected by the applications of such biopesticides. The goals of this project were to assess potential risks of the recombinant baculoviruses on Solenopsis invicta, Geocoris punctipes, and Hippodamia convergens, all of which are common predators of heliothines in Texas cotton. Four recombinant Autographa californica nuclear polyhedrosis viruses (AcNPV), one Helicoverpa zea nuclear polyhedrosis virus (HzNPV), and two corresponding wild-type NPVs were used in this risk assessment study. Risks associated with these baculoviruses were determined by possible shifts in predator life history traits (rate of food consumption, travel speed, fecundity, and survival) when fed prey infected with recombinant viruses compared to prey infected with wild-type viruses or to healthy prey. We also tested for possible transmission of these viruses by predators using the polymerase chain reaction (PCR). No significant shifts in life history characteristics were detected in predators fed Heliothis virescens larvae infected with any of the seven viruses. Viral DNA was discovered using PCR in 2.3% of fire ant workers, but not from any of the queens or eggs. In G. punctipes, 13.4% of adults and 0.5% of eggs scored positive for viruses. Twelve percent of H. convergens adults were found PCR positive. Residency in all three predators tested provides a pathway which could increase the persistence of recombinant viral particles in the environment and thus may produce an indeterminable amount of risk associated with their inadvertent movement.     

Virus-induced silencing of <Emphasis Type="Italic">Comt</Emphasis>, p<Emphasis Type="Italic">Amt</Emphasis> and <Emphasis Type="Italic">Kas</Emphasis> genes results in a reduction of capsaicinoid accumulation in chili pepper fruits

Capsaicinoids are responsible for the pungent taste of chili pepper fruits of Capsicum species. Capsaicinoids are biosynthesized through both the phenylpropanoid and the branched-fatty acids pathways. Fragments of Comt (encoding a caffeic acid O-methyltransferase), pAmt (a putative aminotransferase), and Kas (a β-keto-acyl-[acyl-carrier-protein] synthase) genes, that are differentially expressed in placenta tissue of pungent chili pepper, were individually inserted into a Pepper huasteco yellow veins virus (PHYVV)-derived vector to determine, by virus-induced gene silencing, irrespective of whether these genes are involved in the biosynthesis of capsaicinoids. Reduction of the respective mRNA levels as well as the presence of related siRNAs confirmed the silencing of these three genes. Morphological alterations were evident in plants inoculated with PHYVV::Comt and PHYVV::Kas constructs; however, plants inoculated with PHYVV::pAmt showed no evident alterations. On the other hand, fruit setting was normal in all cases. Biochemical analysis of placenta tissues showed that, indeed, independent silencing of all three genes led to a dramatic reduction in capsaicinoid content in the fruits demonstrating the participation of these genes in capsaicinoid biosynthesis. Using this approach it was possible to generate non-pungent chili peppers at high efficiency.     

云南蔗区甘蔗线条花叶病毒分离物NIa基因形成新簇

【目的】利用NIa基因,阐明甘蔗线条花叶病毒(Sugarcane streak mosaic virus,SCSMV)的种系发生关系,为预测SCSMV流行变异趋势及科学防控提供理论依据。【方法】从云南蔗区和国家甘蔗种质资源圃采集感病样品,RT-PCR扩增获得SCSMV NIa基因序列后,使用Splits Tree、RDP、Phy ML、Dna SP等软件分析SCSMV中国分离物的系统发生、选择压力及基因流动等特征。【结果】共获得23条SCSMV NIa基因序列。这些序列间未发生重组,云南蔗区的部分序列形成1个新簇,且云南蔗区与国家甘蔗种质资源圃之间的基因交流不显著。此外,选择压力分析表明,NIa基因受很强的负选择压力作用。【结论】与P1、HC-Pro和CP等基因类似,SCSMV在NIa基因上也包含5个簇;SCSMV云南分离物具有较高的遗传多样性和清晰的地理相关性。