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1.
Engineered Mild Strains of Papaya ringspot virus for Broader Cross Protection in Cucurbits 总被引:1,自引:0,他引:1
ABSTRACT Papaya ringspot virus (PRSV) HA5-1, a mild mutant of type P Hawaii severe strain (PRSV P-HA), has been widely used for the control of PRSV type P strains in papaya, but did not provide practical protection against PRSV type W strains in cucurbits. In order to widen the protection effectiveness against W strains, chimeric mild strains were constructed from HA5-1 to carry the heterologous 3' genomic region of a type W strain W-CI. Virus accumulation of recombinants and their crossprotection effectiveness against W-CI and P-HA were investigated. In horn melon and squash plants, the recombinant carrying both the heterologous coat protein (CP) coding region and the 3' untranslated region (3'UTR), but not the heterologous CP coding region alone, significantly enhanced the protection against W-CI. The heterologous 3'UTR alone is critical for the enhancement of the protection against W-CI in horn melon, but not in zucchini squash. In papaya, the heterologous CP coding region or 3'UTR alone, but not both together, significantly reduced the effectiveness of cross protection against P-HA. Our recombinants provide broader protection against both type W and P strains in cucurbits; however, the protective effectiveness is also affected by virus accumulation, the organization of the 3' genomic region, and host factors. 相似文献
2.
Aparana Srivastava Sonali Trivedi Sunil Kumar Krishna H. N. Verma Vivek Prasad 《European journal of plant pathology / European Foundation for Plant Pathology》2009,123(2):241-246
CAP-34, a protein from Clerodendrum aculeatum inducing systemic antiviral resistance was evaluated for control of Papaya ringspot virus (PRSV) infection in Carica papaya. In control plants (treated with CAP-34 extraction buffer) systemic mosaic became visible around 20 days that intensified
up to 30 days in 56% plants. During this period, CAP-34-treated papaya did not show any symptoms. Between 30 and 60 days,
95% control plants exhibited symptoms ranging from mosaic to filiformy. In the treated set during the same period, symptoms
appeared in only 10% plants, but were restricted to mild mosaic. Presence of PRSV was determined in induced-resistant papaya
at the respective observation times by bioassay, plate ELISA, immunoblot and RT-PCR. Back-inoculation with sap from inoculated
resistant plants onto Chenopodium quinoa did not show presence of virus. The difference between control and treated sets was also evident in plate-ELISA and immunoblot
using antiserum raised against PRSV. PRSV RNA was not detectable in treated plants that did not show symptoms by RT-PCR. Control
plants at the same time showed a high intensity band similar to the positive control. We therefore suggest that the absence/delayed
appearance of symptoms in treated plants could be due to suppressed virus replication. 相似文献
3.
P. J. Mansilla A. G. Moreira A. P. O. A. Mello J. A. M. Rezende J. A. Ventura V. A. Yuki F. J. Levatti 《Plant pathology》2013,62(3):571-577
Papaya ringspot virus type P (PRSV‐P) systemically infects Carica papaya and species belonging to the family Cucurbitaceae. Attempts to recover PRSV‐P from naturally infected cucurbit plants grown near or among diseased papaya trees have shown conflicting results worldwide. This study aimed to evaluate the natural infection of cucurbit species grown among and near papaya trees infected with PRSV‐P in Brazil. Natural infection of cucurbits with PRSV‐P occurred in zucchini squash but not in watermelon and cucumber. However, several attempts to recover PRSV‐P from numerous Cucurbita pepo cv. Caserta (zucchini squash) plants grown 5–80 m from diseased papaya trees in the field failed. Mechanical inoculations of Cucurbita pepo cv. Caserta, Cucurbita maxima cv. Exposição (pumpkin), Cucumis sativus cv. Primepack Plus (cucumber) and Citrullus lanatus cv. Crimson Sweet (watermelon) with five Brazilian PRSV‐P isolates showed that zucchini squash was the most susceptible species followed by watermelon and cucumber, while pumpkin was not infected. The results confirmed the variable susceptibility of cucurbit species to experimental and natural PRSV‐P infection. Given these facts, the control of the disease through roguing should focus mainly on diseased papaya plants, as has been practised successfully in Brazil for many years, and on those cucurbits particularly known to be susceptible to natural infection with PRSV‐P. 相似文献
4.
Savarni Tripathi Huey-jiunn Bau Li-fang Chen Shyi-dong Yeh 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(9):871-882
The coat protein (CP) gene mediated transgenic resistance is found to be the best approach for protecting papaya plants against the destructive disease caused by Papaya ringspot viruses(PRSV). In order to study the variability of PRSV and the potential threat to the CP-transgenic resistance, five virus isolates were collected from transgenic plants of papaya line 16-0-1, which carry the CP gene of the typical mosaic strain of Taiwan PRSV YK, in an approved test field and fourteen from untransformed papaya plants in different areas of Taiwan. The results of biological, serological, and molecular characterization indicated that all isolates are related to PRSV YK. Among them, the isolate 5--19 from the transgenic line and the isolates CS and TD2 from untransformed papaya were able to overcome the YK CP gene-mediated resistance of papaya lines 18--2--4, 17-0-5, and 16-0-1, which provide high degrees of resistance to different geographic PRSV strains of Hawaii (HA), Mexico (MX), and Thailand (TH). These three isolates were also able to cause symptoms on untransformed papaya plants more severe than those induced by YK. In addition to the host reactions, the variability of the collected 19 isolates was also analyzed and compared with YK and other geographic strains by heteroduplex mobility assay (HMA) and sequence analyses. The results of HMA indicated that the CP genes of isolates 5--19 and TD2 are more divergent than those of other isolates when compared with YK. However, sequence analyses of the transgenic-resistance overcoming isolates 5-19, CS, and TD2 revealed that their CP coding regions and the 3 untranslated regions (UTRs) share nucleotide identities of 93.9–96.6% and 94.2–97.9% with those of YK, respectively; whereas the other geographic strains of HA, MX, and TH that could not overcome the transgenic resistance share lower nucleotide identities of 89.8–92.6% and 92.3–95.3% with those of YK, respectively. Our results indicate that the ability for overcoming the transgenic resistance is not solely correlated with higher degrees of sequence divergence from the transgene. The possible mechanism for overcoming the transgenic resistance and the potential threat of these PRSV strains to the application of the transgenic papaya lines carrying PRSV YK CP gene are discussed. 相似文献
5.
Luz Yineth Ortiz-Rojas Giovanni Chaves-Bedoya 《European journal of plant pathology / European Foundation for Plant Pathology》2017,148(4):883-894
Papaya ringspot virus is an RNA virus that belongs to the genus Potyvirus, family Potyviridae and affects both papaya and cucurbits, causing great economic losses. PRSV isolates are divided into biotypes P and W; both biotypes naturally infect plants in the family Cucurbitaceae, whereas the P type also naturally infects papaya (Carica papaya L). In the present study, we report the full-length genome sequence of two PRSV-P isolates sampled from the Campo Hermoso (PRSV-CH) and Villa del Rosario (PRSV-VR) localities in Norte de Santander, Colombia. The genomes of these PRSV isolates are 10,326 nt in length and have a predicted ORF of 3344 aa. The identity among Colombian PRSV isolates is 96.9% and 97.3% at the nucleotide and deduced amino acid levels, respectively. PRSV isolates from China had the lowest identity at 78.3% and 89.2% (nucleotide-amino acid), whereas the highest identities were detected in PRSV isolates from Mexico, Venezuela and Hawaii. At the polyprotein level, the amino acid composition surrounding the active polyprotein cleavage sites differ in the Colombian PRSV sequences. The predicted cleavage site in P1/HC-Pro is LEQY/N – LEQY/S instead of MEQY/N. Both of the Colombian PRSV isolates have a putative recombination event in the P1 coding region, which is common in all PRSV isolates from the American continent. The new full-length PRSV sequences from Colombia provide a better understanding of the dynamics of papaya ringspot virus infections in papaya in Colombia and worldwide. 相似文献
6.
Papaya Ringspot Virus Resistance of Transgenic Rainbow and SunUp is Affected by Gene Dosage, Plant Development, and Coat Protein Homology 总被引:7,自引:0,他引:7
Paula Tennant G. Fermin M.M. Fitch R.M. Manshardt J.L. Slightom D. Gonsalves 《European journal of plant pathology / European Foundation for Plant Pathology》2001,107(6):645-653
7.
González-Jara P Atencio FA Martínez-García B Barajas D Tenllado F Díaz-Ruíz JR 《Phytopathology》2005,95(8):894-901
ABSTRACT The effects on symptom expression of single amino acid mutations in the central region of the Plum pox virus (PPV) helper component-proteinase (HC-Pro) gene were analyzed in Nicotiana benthamiana using Potato virus X (PVX) recombinant viruses. PVX recombinant virus expressing the wild-type variant of PPV HC-Pro induced the expected enhancement of PVX pathogenicity, manifested as necrosis and plant death. Recombinant virus expressing a variant of PPV HC-Pro containing a single point mutation ( HCL(134)H) was unable to induce this synergistic phenotype. The RNA silencing suppressor activity of PPV HC-Pro was demonstrated in a transient silencing suppression assay. In contrast, the HCL(134)H mutant showed no such activity. These results indicate that a unique point mutation in PPV HC-Pro impaired its ability to suppress RNA silencing and abolished its capacity to induce synergism, and clearly shows for the first time the link between these two functions in potyvirus HC-Pro. Additionally, we compared the effects on virus accumulation in N. benthamiana plants infected with either the PVX recombinant constructs or with native viruses in double infection experiments. PVX (+) and (-) strand genomic RNA accumulated at similar levels in plants infected with PVX recombinants, leading to an increase in PVX pathology, compared with plants infected with PVX alone. This finding confirms that the enhancement of pathogenicity associated with synergistic interaction is not a consequence of more efficient PVX replication due to RNA silencing suppression by PPV HC-Pro. 相似文献
8.
9.
Islam Hamim Wayne B. Borth Josiah Marquez James C. Green Michael J. Melzer John S. Hu 《Phytoparasitica》2018,46(1):1-18
Global papaya production is severely affected by papaya ringspot disease caused by Papaya ringspot virus (PRSV). Management of this potyvirus is challenging, due to 1) its non-persistent transmission by numerous aphid species and 2) the diversity of PRSV strains that exists within a country or between different geographical regions. Papaya cultivars with transgenic resistance have reduced the impact of the disease. There are no effective alternatives to transgenic resistance available in areas where disease pressure is high. In Hawaii, transgenic papayas such as “SunUp” and “Rainbow” have remained resistant to PRSV more than two decades saving the commercial papaya industry. Following the success in Hawaii, researchers from other countries have focused on developing PRSV-resistant transgenic papaya. These transgenic cultivars often demonstrated an initial transitory resistance that was ultimately overcome by the virus. For other cases, resistance was inconsistent. That is, some transgenic lines were resistant while others were not. Transgenic cultivars are now losing PRSV-resistance for various reasons in China and Taiwan. In this review, we present an update on work with transgenic papaya with resistance to PRSV. The focus is on factors affecting transgenic resistance in papaya and our attempt to explain why the Hawaiian scenario of complete and durable resistance has not been replicated in other regions. The utilization of more recent technologies to the development of virus resistance in papaya is also discussed. 相似文献
10.
为防治番木瓜环斑病毒(Papaya ringspot virus,PRSV)在我国葫芦科作物上引起的病毒病害,以PRSV西瓜株系山东分离物(PRSV-SD)侵染性cDNA克隆为基础,采用定点突变方法将辅助成分-蛋白酶保守氨基酸137位和346位的天冬酰胺(N)和417位的缬氨酸(V)突变为丙氨酸(A),应用农杆菌浸润法接种西葫芦叶片并分析突变对PRSV-SD致病力的影响,筛选弱毒突变体,进而评价其交叉保护效果。结果表明,与野生型PRSV-SD相比,获得的3个突变体N137A、N346A和V417A,接种后在西葫芦植株上的症状明显减轻,衣壳蛋白在叶片中的积累水平分别为野生型PRSV-SD的24.0%、13.0%和4.0%,均为弱毒突变体。当保护间隔期为10 d时,弱毒突变体N137A具有完全的交叉保护效果,N346A可延迟发病15 d,而V417A无交叉保护效果。当间隔保护期为15 d时,弱毒突变体N137A和N346A的保护效率分别为100.0%和26.7%,而V417A无交叉保护效果。 相似文献
11.
Jian-Sheng Chen Shan-Shan Liang Sheng-Ren Sun Mona B. Damaj Hua-Ying Fu San-Ji Gao 《Plant pathology》2020,69(7):1390-1400
RNA silencing is one of the conserved antiviral mechanisms in plants, and viruses encode RNA silencing suppressors (RSS) to overcome host RNA silencing and facilitate virus infection. Sugarcane streak mosaic virus (SCSMV; species Sugarcane streak mosaic virus, genus Poacevirus, family Potyviridae) is a major causal agent of sugarcane mosaic disease in many countries in Asia, including China. In this study, we used Agrobacterium co-infiltration to show that the SCSMV P1 protein, rather than the helper component-proteinase (HC-Pro), functions as a strong RSS to suppress local RNA silencing in Nicotiana benthamiana. Mutational analysis indicated that the 15 amino acids (aa; aa 1–15) of the SCSMV P1 N-terminus were not important for RNA silencing suppression, but rather another 15 aa domain (aa 108–122) containing a conserved motif (LFR/KNKQAYIST) was essential for efficient silencing suppression by P1. In addition to the 15 aa (aa 344–358) domain in the P1 N-terminus, another 15 aa domain (aa 65–79) of P1, containing the LXKA motif and one conserved aa (D78), were associated with P1 protein stability. Furthermore, substituting the histidine (H263) residue in P1 with threonine (H263T) or alanine (H263A) also affected P1 protein stability. Notably, the H263 residue is both a positively selected site and part of the serine protease catalytic triad (HDS). Taken together, our data demonstrate that SCSMV P1, and not HC-Pro, plays a functional role in suppressing RNA silencing, and also show that some conserved motifs and a positivelyselected site in the P1 protein are associated with RSS activity and protein stability. 相似文献
12.
L. Bos N. Huijberts 《European journal of plant pathology / European Foundation for Plant Pathology》1996,102(7):707-711
Sowbane mosaic virus was isolated as a single infectious component from seedlings and seeds from a seed-lot of spinach (Spinacia oleracea) propagated in Hungary, and was identified by experimental host-range, thermal-inactivation point, dilution end-point, electron microscopy and serology.Chenopodium quinoa was more susceptible and/or sensitive to infection thanC. amaranticolor and was a better indicator host, butC. amaranticolor is of diagnostic value. This is the first report on natural infection of spinach by the virus and on its natural seed-transmission in spinach. Growing-on tests on whole seeds and infectivity tests on separate embryos and seed-coats showed that over 30% of the seeds' embryos were infected and c. 80% of the seed-coats contained the virus. The incidence of infection in the spinach crop from which the seed was obtained must have been high. 相似文献
13.
Tetsuo MAOKA Shinya TSUDA Tomio USUGI Chiyoichi NODA Mabito IWASAKI 《Journal of General Plant Pathology》2002,68(1):89-93
Losses in serological reactivity of Papaya leaf distortion mosaic virus (PLDMV) were demonstrated. An antibody, IgG-papaya,
raised against PLDMV purified from papaya (Carica papaya L.) did not react with virus particles in Cucumis metuliferus leaf extracts in ELISA or SSEM-PAG (serologically specific electron microscopy using protein A-gold). In addition, IgG-papaya
and IgG- Cucumis raised against PLDMV purified from C. metuliferus did not react with virus particles in papaya leaf extracts after western blotting. From results of electrophoresis, the coat
protein (CP) of PLDMV purified from papaya had degraded and migrated in two bands. Similar degradation was also observed when
virus purified from C. metuliferus was treated with papain. These results indicated that the CP of PLDMV purified from papaya was degraded during the purification
process by papain in the host plant. IgG-papaya was reactive to papain-degraded CP, while IgG-Cucumiswas reactive to both intact and degraded CP. Modified serological methods using antipain (a protease inhibitor) or papain
were established to detect PLDMV.
Received 16 February 2001/ Accepted in revised form 26 September 2001 相似文献
14.
Aamir Lal Eui-Joon Kil Vo T. B. Thuy Chairina Fadhila Phuong T. Ho Hee-Seong Byun Hang T. Dao Ji-Kwang Kim Sukchan Lee 《Plant pathology》2020,69(6):1026-1033
Milk vetch dwarf virus (MDV) is an important member of the genus Nanovirus and is transmitted by the aphid Aphis craccivora. MDV has multiple single-stranded DNA genome components, each approximately 1 kb, and two or three alpha-satellite molecules. It mainly infects plants of the legume family Fabaceae. Recently, papaya (Carica papaya) collected in Yesan, South Korea, displaying symptoms of leaf yellowing and dwarfism, was identified as a new host for MDV. To examine the geographical distribution of MDV, papaya samples with symptoms were harvested in South Korea, Vietnam, and Taiwan in August 2018, along with tomato and pepper samples grown in adjacent fields in Vietnam. The results revealed the presence of MDV not only in papaya but also in pepper and tomato. This MDV infection in members of the Solanaceae family was confirmed by Southern blot hybridization performed using a PCR product of segment S as a probe. Based on sequence analysis of three MDV components (M, S, and C3), we verified the presence of three different isolates of MDV in these three countries and homology between sequences of isolates from papaya and from members of the Solanaceae from Vietnam. Taken together, our results clearly demonstrate MDV infection in Vietnam and Taiwan for the first time and confirm that MDV can infect economically important pepper and tomato. 相似文献
15.
16.
Wei-Qin Wang Tomohide Natsuaki Yoshitaka Kosaka Seiichi Okuda 《Journal of General Plant Pathology》2006,72(1):52-56
To identify possible sites of viral attenuation, the complete nucleotide sequences of two isolates of Zucchini yellow mosaic virus (ZYMV) were determined; a severe isolate Z5-1 and an attenuated isolate from Z5-1 (designated ZYMV-2002). The viral genome
of both isolates consisted of 9593 nucleotides in size and contained an open reading frame encoding a single polyprotein of
3080 amino acids. Comparison of the nucleotide sequences for Z5-1 and ZYMV-2002 revealed 14 nucleotide mutations, resulting
in seven amino acid substitutions with four in the HC-Pro region, two in the CI region, and one in the NIb region. These results
provide a genetic basis for future manipulation of the ZYMV reverse genetics system.
The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AB188115
and AB188116 相似文献
17.
Tetsuji Ogawa Shigeo Nakamura Mitsuru Sayama Kazusato Ohshima 《European journal of plant pathology / European Foundation for Plant Pathology》2013,135(4):745-760
We produced attenuated mutants of Potato virus Y necrotic strain not only by nitrous acid treatment but also by a novel method, probably unique to plant viruses, which we call the “mutagenesis-in-tissue culture method”. This relies on the natural or experimental generation of virus sequence variants within an infected plant, and then isolating the mutants by serially cloning them in plants. A total of fifteen attenuated mutants were obtained and studied. Nucleotide and amino acid sequences of the genomes of the attenuated mutant populations were compared with those parental severe isolates, and the amino acid changes in relevant genomic regions for viral attenuation were inferred. Many of the mutations were located in the 5’ half of the genome; 65 % were located in the protein 1 (P1) and helper component proteinase protein (HC-Pro) encoding regions. Amino acid changes mostly involved simultaneous changes in two or more protein encoding regions, one of which was often in the HC-Pro encoding region. The attenuated mutants M-MY10 and N-NA10 were effective in cross-protection against the original severe isolate NTND6. 相似文献
18.
ABSTRACT Papaya ringspot virus (PRSV) is a major limiting factor for cultivation of papaya (Carica papaya) in tropical and subtropical areas throughout the world. Although the coat protein (CP) gene of PRSV has been transferred into papaya by particle bombardment and transgenic lines with high resistance to Hawaii strains have been obtained, they are susceptible to PRSV isolates outside of Hawaii. This strain-specific resistance limits the application of the transgenic lines in other areas of the world. In this investigation, the CP gene of a local strain isolated from Taiwan, designated PRSV YK, was transferred into papaya via Agrobacterium-mediated transformation. A total of 45 putative transgenic lines were obtained and the presence of the transgene in papaya was confirmed by polymerase chain reaction amplification. When the plants of transgenic lines were challenged with PRSV YK by mechanical inoculation, they showed different levels of resistance ranging from delay of symptom development to complete immunity. Molecular analysis of nine selected lines that exhibited different levels of resistance revealed that the expression level of the transgene is negatively correlated with the degree of resistance, suggesting that the resistance is manifested by a RNA-mediated mechanism. The segregation analysis showed that the transgene in the immune line 18-0-9 has an inheritance of two dominant loci and the other four highly resistant lines have a single dominant locus. Seven selected lines were tested further for resistance to three PRSV heterologous strains that originated in Hawaii, Thailand, and Mexico. Six of the seven lines showed varying degrees of resistance to the heterologous strains, and one line, 19-0-1, was immune not only to the homologous YK strain but also to the three heterologous strains. Thus, these CP-transgenic papaya lines with broad-spectrum resistance have great potential for use in Taiwan and other geographic areas to control PRSV. 相似文献
19.
H. Alkher A. El Hadrami K. Y. Rashid L. R. Adam F. Daayf 《European journal of plant pathology / European Foundation for Plant Pathology》2009,124(3):505-519
This study examined cross-pathogenicity of the soilborne pathogen Verticillium dahliae between potato and sunflower. Four week-old potato and sunflower seedlings were inoculated with ten isolates from each of
the two host species. Potato cultivars (Kennebec, susceptible, and Ranger Russet, moderately resistant) and sunflower hybrids
(IS8048, susceptible, and 6946, moderately resistant) were assessed for disease severity and percent infection at 2 weeks,
3 weeks, 4 weeks, 5 weeks, and 6 weeks after inoculation (w.a.i), and for vascular discolouration at 6 w.a.i., using visual
scales developed for each host species. The experiments were conducted in 2006 and repeated in 2007. Based on percent infection
and disease severity, most V. dahliae isolates were highly aggressive on both host species. The tested isolates caused higher disease levels in the susceptible
than in the moderately resistant phenotypes. They also caused more vascular discolouration in their original than in the alternative
host. However, the isolates originating from sunflower caused less infection and disease severity on both hosts, compared
to their potato counterparts. Cluster analysis based on all of the criteria used to assess pathogenicity led to three groups
of isolates: (i) most V. dahliae potato isolates, which ranged with the highly aggressive control isolates, (ii) one V. dahliae sunflower isolate, which showed a similar pathogenicity level to the weakly-aggressive V. albo-atrum sub-group II control isolate, with no more symptoms than in the non-inoculated plants, and (iii) most V. dahliae sunflower isolates with mildly- to weakly-aggressive levels. Based on these results, V. dahliae cross-pathogenicity is very effective between potato and sunflower. Therefore, rotations involving these species should be
avoided, especially where sunflower follows potato. 相似文献
20.
Mariella Matilde Finetti-Sialer Tiziana Mascia Fabrizio Cillo Crisostomo Vovlas Donato Gallitelli 《European journal of plant pathology / European Foundation for Plant Pathology》2012,132(3):317-322
The biological and molecular characterization is reported of a Watermelon mosaic virus isolate, denoted WMV-Le, associated with a necrotic phenotype of watermelon plants grown in the Provinces of Lecce and Taranto
(Apulia, southern Italy). The fully sequenced WMV-Le genome consists of 10,045 nucleotides and is 99.1% similar to that of
WMV-C05-270, a French isolate from melon of the WMV molecular group 3. Using recombination detection program RDP3, putative
recombination breakpoints were identified close to nucleotide positions 42 to 1892, covering the 5′UTR/P1/HC-Pro region. The
event represents the insertion of a sequence fragment of an isolate similar to WMV-FBR04-37 in the background of an isolate
similar to WMV-FMF00-LL1. The field symptomatology was reproduced in watermelon plants grown in an experimental greenhouse
but the virus induced severe symptoms also in Cucumis sativus, C. melo, Cucurbita maxima and C. pepo . 相似文献