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1.
Plant Dis ; 2024 Jun 26.
Artigo em Inglês | MEDLINE | ID: mdl-38932448

RESUMO

Tomato interveinal chlorosis virus (ToICV; Begomovirus solanumintervenae, genus Begomovirus, family Geminiviridae) has been described infecting tomato (Solanum lycopersicum) and Macroptilium lathyroides in Northeastern (NE) Brazil for more than a decade (Albuquerque et al., 2012; Silva et al., 2012). During a survey in 2020, plants of the leguminous weed Rhynchosia minima exhibiting virus-like symptoms such as mosaic and interveinal chlorosis were observed in the state of Alagoas, NE Brazil. Symptomatic leaf samples of R. minima were randomly collected (n=15; supplementary figure 1). Total DNA from each sample was used as a template for PCR amplification of partial begomoviral DNA-A sequences using the degenerate primer pair PAL1v1978 and PAR1c496, universal for geminiviruses (Rojas et al., 1993). Amplicons of ~1.2 kbp were observed from 12 samples, although this should not be considered as incidence since only symptomatic plants were collected. To identify the begomovirus associated with R. minima, viral genomes were amplified from PCR-positive samples using rolling circle amplification (RCA) (Inoue-Nagata et al., 2004). The RCA products were digested with HindIII, cloned into the pBluescript II KS+ plasmid vector and bidirectionally Sanger-sequenced (Macrogen Inc., Seoul). BLASTn searches indicated that the clones (n=4) reported here corresponded to a begomovirus DNA-A component, and pairwise comparisons showed that they shared the highest identity with ToICV, at 92.4-94.7% nucleotide sequence identity. Based on the species demarcation criteria of ≥91% nucleotide identity for the genus Begomovirus (Brown et al., 2015), the begomoviruses obtained from R. minima are new isolates of ToICV. The new DNA-A sequences of 2,619-2,623 nt in length were deposited in GenBank under accession numbers PP639092 to PP639095. Multiple nucleotide sequence alignments were prepared using the MUSCLE algorithm implemented in MEGA v.11 (Kumar et al., 2018), and a maximum likelihood (ML) tree was reconstructed in RaxML-NG (Kozlov et al., 2019), assuming a general time reversible (GTR) nucleotide substitution model with a gamma (G) model of rate heterogeneity and 1,000 bootstrap replicates. The DNA-A-based tree showed that the ToICV sequences clustered into a monophyletic group, additionally supporting these isolates as members of the species Begomovirus solanumintervenae. At least two independent interspecies recombination events were predicted among the ToICV isolates, with breakpoints located in the Rep-encoding region and ToICV (GenBank Accession JF803253), tomato mottle leaf curl virus (JF803248) and soybean blistering mosaic virus (MN486865) detected as putative parents. To the best of our knowledge, this is the first report of ToICV infecting R. minima worldwide, expanding the host range of this begomovirus. Non-cultivated plants such as R. minima play a crucial role as reservoirs and sources of inoculum for begomoviruses (Paz-Carrasco et al., 2014), reinforcing their relevance to socioeconomically important crops.

2.
rev. udca actual. divulg. cient ; 27(1): e2364, ene.-jun. 2024. tab, graf
Artigo em Inglês | LILACS-Express | LILACS | ID: biblio-1576982

RESUMO

ABSTRACT Yellow passion fruit crop is affected by multiple phytosanitary problems. Among the main ones are viruses of the genera Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (tymovirus passiflorae, PYMV) and Begomovirus (passionfruit leaf distortion virus, PLDV). Information about the prevalence and interaction between these viruses is scarce. The objective of this study was to verify the prevalence and identify the types of mixed viral infections of potyvirus, cucumovirus, tymovirus, and begomovirus in passion fruit crops in Valle del Cauca, Colombia. Passion fruit leaf samples with symptoms were collected and their nucleic acids were purified. Virus identification was performed by PCR using universal primers by viral genus, and specific primers for the SMV, CMV, PFYMV and PLDV viruses. The incidence of each virus by municipality was analyzed and the severity of the symptoms was compared with the diagnosis made. In total, 66 samples were collected in the municipalities of Toro, Dagua, Roldanillo, Bolívar, La Unión and El Cerrito. It was established that the most prevalent viruses are PLDV followed by SMV and CMV. The presence of PYMV was not detected in the samples analyzed. The presence of double and triple infections among potyvirus, cucumovirus and begomovirus were identified for the first time, finding greater severity of symptoms with a greater number of viruses identified per sample. This research provides key results for the design of control strategies for viral diseases in passion fruit.


RESUMEN El cultivo de maracuyá amarillo es afectado por múltiples problemas fitosanitarios. Entre los principales, están los virus de los géneros Potyvirus (soybean mosaic virus, SMV), Cucumovirus (cucumber mosaic virus, CMV), Tymovirus (passion fruit yellow mosaic virus, PFYMV) y Begomovirus (passionfruit leaf distortion virus, PLDV). Información acerca de la prevalencia e interacción entre estos virus es escasa. El objetivo del presente estudio fue verificar la prevalencia e identificar los tipos de infecciones virales mixtas de potyvirus, cucumovirus, tymovirus y begomovirus en cultivos de maracuyá en Valle del Cauca, Colombia. Muestras foliares de maracuyá con síntomas virales fueron recolectadas y se purificaron sus ácidos nucleicos. La identificación de los virus se realizó por PCR empleando cebadores universales por género viral, y cebadores específicos para los virus SMV, CMV, PFYMV y PLDV. Se analizó la incidencia de cada virus por municipio y se comparó la severidad de los síntomas con el diagnóstico realizado. En total se colectaron 66 muestras en los municipios de Toro, Dagua, Roldanillo, Bolívar, La Unión y El Cerrito. Se estableció que los virus con mayor prevalencia fueron PLDV, seguido por SMV y CMV. No se detectó la presencia de PFYMV en las muestras analizadas. Se identificó por primera vez la presencia de infecciones dobles y triples entre potyvirus, cucumovirus y begomovirus, encontrándose mayor severidad de síntomas a mayor número de virus identificado por muestra. La presente investigación provee resultados clave para el diseño de estrategias de control de enfermedades virales en maracuyá.

3.
Braz. j. biol ; 84: e260922, 2024. tab, graf, ilus
Artigo em Inglês | VETINDEX | ID: biblio-1384074

RESUMO

Alphasatellites (family Alphasatellitidae) are circular, single-stranded (ss) DNA molecules of ~1350 nucleotide in size that have been characterized in both the Old and New Worlds. Alphasatellites have inherent ability to self-replicate, which is accomplished by a single protein, replication-associated protein (Rep). Although the precise function of alphasatellite is yet unknown, and these consider dispensable for infectivity, however, their Rep protein functions as a suppressor of host defence. While alphasatellites are most frequently associated with begomoviruses, particularly with monopartite than bipartite begomoviruses, they have recently been found associated with mastreviruses. The in planta maintenance of alphasatellites by helper geminivirus is still an enigma, with no available study on the topic. This study aimed to investigate whether a widely distributed bipartite begomovirus, tomato leaf curl New Delhi virus (ToLCNDV), can maintain cotton leaf curl Multan alphasatellite (CLCuMuA) in the presence or absence of cotton leaf curl Multan betasatellite (CLCuMuB). The findings of this study demonstrated that ToLCNDV or its DNA A could maintain CLCuMuA in Nicotiana benthamiana plants. However, the presence of CLCuMuB interferes with the maintenance of CLCuMuA, and mutations in the CP of ToLCNDV further reduces it. Our study highlighted that the maintenance of alphasatellites is impaired in the presence of a betasatellite by ToLCNDV. Further investigation is needed to unravel all the interactions between a helper virus and an alphasatellites.


Alfassatélites (família Alphasatellitidae) são moléculas de DNA circulares de fita simples (ss) de ~1350 nucleotídeos de tamanho, que foram caracterizadas tanto no Velho como no Novo Mundo. Os alfassatélites têm capacidade inerente de autorreplicação, o que é realizado por uma única proteína, a proteína associada à replicação (Rep). Embora a função precisa dos alfassatélites ainda seja desconhecida, e estes sejam considerados dispensáveis ​​para infectividade, entretanto, sua proteína Rep funciona como supressora da defesa do hospedeiro. Embora os alfassatélites sejam mais frequentemente associados a begomovírus, particularmente com begomovírus monopartidos do que bipartidos, eles foram encontrados recentemente associados a mastrevírus. A manutenção in planta de alfassatélites por helper geminivirus ainda é um enigma, sem estudos disponíveis sobre o tema. Este estudo teve como objetivo investigar se um begomovírus bipartido amplamente distribuído, o tomate leaf curl New Delhi virus (ToLCNDV), pode manter o alfassatélite Multan do enrolamento das folhas de algodão (CLCuMuA) na presença ou ausência do betassatélite Multan do enrolamento das folhas de algodão (CLCuMuB). Os achados deste estudo demonstraram que ToLCNDV ou seu DNA A poderia manter CL CuMuA em plantas de Nicotiana benthamiana. No entanto, a presença de CLCuMuB interfere na manutenção de CLCuMuA, e mutações no CP de ToLCNDV a reduzem ainda mais. Nosso estudo destacou que a manutenção de alfassatélites é prejudicada na presença de um betassatélite por ToLCNDV. Mais investigações são necessárias para desvendar todas as interações entre um vírus auxiliar e um alfassatélite.


Assuntos
DNA , Gossypium/genética , Begomovirus
4.
Plants (Basel) ; 12(11)2023 May 23.
Artigo em Inglês | MEDLINE | ID: mdl-37299048

RESUMO

Induced systemic resistance (ISR) is a mechanism involved in the plant defense response against pathogens. Certain members of the Bacillus genus are able to promote the ISR by maintaining a healthy photosynthetic apparatus, which prepares the plant for future stress situations. The goal of the present study was to analyze the effect of the inoculation of Bacillus on the expression of genes involved in plant responses to pathogens, as a part of the ISR, during the interaction of Capsicum chinense infected with PepGMV. The effects of the inoculation of the Bacillus strains in pepper plants infected with PepGMV were evaluated by observing the accumulation of viral DNA and the visible symptoms of pepper plants during a time-course experiment in greenhouse and in in vitro experiments. The relative expression of the defense genes CcNPR1, CcPR10, and CcCOI1 were also evaluated. The results showed that the plants inoculated with Bacillus subtilis K47, Bacillus cereus K46, and Bacillus sp. M9 had a reduction in the PepGMV viral titer, and the symptoms in these plants were less severe compared to the plants infected with PepGMV and non-inoculated with Bacillus. Additionally, an increase in the transcript levels of CcNPR1, CcPR10, and CcCOI1 was observed in plants inoculated with Bacillus strains. Our results suggest that the inoculation of Bacillus strains interferes with the viral replication, through the increase in the transcription of pathogenesis-related genes, which is reflected in a lowered plant symptomatology and an improved yield in the greenhouse, regardless of PepGMV infection status.

5.
Plant J ; 114(1): 23-38, 2023 04.
Artigo em Inglês | MEDLINE | ID: mdl-35574650

RESUMO

Bean leaf crumple virus (BLCrV) is a novel begomovirus (family Geminiviridae, genus Begomovirus) infecting common bean (Phaseolus vulgaris L.), threatening bean production in Latin America. Genetic resistance is required to ensure yield stability and reduce the use of insecticides, yet the available resistance sources are limited. In this study, three common bean populations containing a total of 558 genotypes were evaluated in different yield and BLCrV resistance trials under natural infection in the field. A genome-wide association study identified the locus BLC7.1 on chromosome Pv07 at 3.31 Mbp, explaining 8 to 16% of the phenotypic variation for BLCrV resistance. In comparison, whole-genome regression models explained 51 to 78% of the variation and identified the same region on Pv07 to confer resistance. The most significantly associated markers were located within the gene model Phvul.007G040400, which encodes a leucine-rich repeat receptor-like kinase subfamily III member and is likely to be involved in the innate immune response against the virus. The allelic diversity within this gene revealed five different haplotype groups, one of which was significantly associated with BLCrV resistance. As the same genome region was previously reported to be associated with resistance against other geminiviruses affecting common bean, our study highlights the role of previous breeding efforts for virus resistance in the accumulation of positive alleles against newly emerging viruses. In addition, we provide novel diagnostic single-nucleotide polymorphism markers for marker-assisted selection to exploit BLC7.1 for breeding against geminivirus diseases in one of the most important food crops worldwide.


Assuntos
Estudo de Associação Genômica Ampla , Phaseolus , Resistência à Doença/genética , Melhoramento Vegetal , Genótipo , Phaseolus/genética , Folhas de Planta , Doenças das Plantas/genética
6.
Virus Res ; 323: 198969, 2023 Jan 02.
Artigo em Inglês | MEDLINE | ID: mdl-36257487

RESUMO

Begomoviruses (single-stranded DNA plant viruses transmitted by whiteflies) are economically important pathogens causing epidemics worldwide. Tomato-infecting begomoviruses emerged in Brazil in the 1990's following the introduction of Bemisia tabaci Middle East-Asia Minor 1. It is believed that these viruses evolved from indigenous viruses infecting non-cultivated hosts. However, tomato-infecting viruses are rarely found in non-cultivated hosts, and vice-versa. It is possible that viral populations in a given host are composed primarily of viruses which are well adapted to this host, but also include a small proportion of poorly adapted viruses. Following transfer to a new host, the composition of the viral population would shift rapidly, with the viruses which are better adapted to the new host becoming predominant. To test this hypothesis, we collected tomato and Sida plants growing next to each other at two locations in 2014 and 2018. Total DNA was extracted from tomato and Sida samples from each location and year and used as a template for high-throughput sequencing. Reads were mapped following a highly stringent set of criteria. For the 2014 samples, >98% of the Sida reads mapped to Sida micrantha mosaic virus (SiMMV), but 0.1% of the reads mapped to tomato severe rugose virus (ToSRV). Conversely, >99% of the tomato reads mapped to ToSRV, with 0.18% mapping to SiMMV. For the 2018 samples, 41% of the Sida reads mapped to three Sida-adapted viruses and 0.1% of the reads mapped to ToSRV, while 99.9% of the tomato reads mapped to ToSRV. These results are consistent with the hypothesis that viral populations in a single plant are composed primarily of the virus that is better adapted to the host but also include a small proportion of viruses that are poorly adapted.

7.
Plant Dis ; 107(4): 1087-1095, 2023 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-36096104

RESUMO

Tomato severe rugose virus (ToSRV) is one of Brazil's main begomoviruses infecting tomato (Solanum lycopersicum). Recent studies indicate that soybean (Glycine max) crops harboring the whitefly Bemisia tabaci Middle East-Asia Minor 1 (MEAM1) may have epidemiological significance by acting as an asymptomatic amplifier host for the virus. In this study, we gathered experimental greenhouse and field evidence of the role of soybean in the epidemiology of the disease caused by ToSRV. Tomato and Nicandra physalodes, known as good sources of inoculum of this begomovirus, were used as references. The infection rates of soybean, tomato, and N. physalodes with ToSRV in greenhouse no-choice transmission tests with B. tabaci MEAM1 were 50, 71.4, and 64.2%, respectively. The transmission efficiencies of ToSRV to tomato when B. tabaci MEAM1 acquired the virus in ToSRV-infected soybean, tomato, and N. physalodes were 43, 33, and 20%, respectively. Leaves of ToSRV-infected soybean, tomato, and N. physalodes used as sources of inoculum had similar virus titers. In the host preference assay, viruliferous whiteflies preferred to land on tomato rather than soybean and N. physalodes, whereas aviruliferous whiteflies landed indistinctly on these plants. Under experimental field conditions, the transmission efficiency of ToSRV to tomato was higher when tomato was used as a source of inoculum, followed by N. physalodes and soybean. Considering that soybean is extensively cultivated in several Brazilian states that also grow tomato, it can serve as an efficient asymptomatic source of inoculum and support the recent hypothesis that it can also play, under certain conditions, a relevant role as an amplifier host in the epidemiology of the disease caused by ToSRV.


Assuntos
Begomovirus , Hemípteros , Solanaceae , Solanum lycopersicum , Animais , Glycine max , Begomovirus/genética , Produtos Agrícolas
8.
J Virol ; 96(18): e0072522, 2022 09 28.
Artigo em Inglês | MEDLINE | ID: mdl-36043875

RESUMO

Begomoviruses are members of the family Geminiviridae, a large and diverse group of plant viruses characterized by a small circular single-stranded DNA genome encapsidated in twinned quasi-icosahedral virions. Cultivated tomato (Solanum lycopersicum L.) is particularly susceptible and is infected by >100 bipartite and monopartite begomoviruses worldwide. In Brazil, 25 tomato-infecting begomoviruses have been described, most of which are bipartite. Tomato mottle leaf curl virus (ToMoLCV) is one of the most important of these and was first described in the late 1990s but has not been fully characterized. Here, we show that ToMoLCV is a monopartite begomovirus with a genomic DNA similar in size and genome organization to those of DNA-A components of New World (NW) begomoviruses. Tomato plants agroinoculated with the cloned ToMoLCV genomic DNA developed typical tomato mottle leaf curl disease symptoms, thereby fulfilling Koch's postulates and confirming the monopartite nature of the ToMoLCV genome. We further show that ToMoLCV is transmitted by whiteflies, but not mechanically. Phylogenetic analyses placed ToMoLCV in a distinct and strongly supported clade with other begomoviruses from northeastern Brazil, designated the ToMoLCV lineage. Genetic analyses of the complete sequences of 87 ToMoLCV isolates revealed substantial genetic diversity, including five strain groups and seven subpopulations, consistent with a long evolutionary history. Phylogeographic models generated with partial or complete sequences predicted that the ToMoLCV emerged in northeastern Brazil >700 years ago, diversifying locally and then spreading widely in the country. Thus, ToMoLCV emerged well before the introduction of MEAM1 whiteflies, suggesting that the evolution of NW monopartite begomoviruses was facilitated by local whitefly populations and the highly susceptible tomato host. IMPORTANCE Worldwide, diseases of tomato caused by whitefly-transmitted geminiviruses (begomoviruses) cause substantial economic losses and a reliance on insecticides for management. Here, we describe the molecular and biological properties of tomato mottle leaf curl virus (ToMoLCV) from Brazil and establish that it is a NW monopartite begomovirus indigenous to northeastern Brazil. This answered a long-standing question regarding the genome of this virus, and it is part of an emerging group of these viruses in Latin America. This appears to be driven by widespread planting of the highly susceptible tomato and by local and exotic whiteflies. Our extensive phylogenetic studies placed ToMoLCV in a distinct strongly supported clade with other begomoviruses from northeastern Brazil and revealed new insights into the origin of Brazilian begomoviruses. The novel phylogeographic analysis indicated that ToMoLCV has had a long evolutionary history, emerging in northeastern Brazil >700 years ago. Finally, the tools used here (agroinoculation system and ToMoLCV-specific PCR test) and information on the biology of the virus (host range and whitefly transmission) will be useful in developing and implementing integrated pest management (IPM) programs targeting ToMoLCV.


Assuntos
Begomovirus , Doenças das Plantas , Solanum lycopersicum , Animais , Begomovirus/classificação , Begomovirus/fisiologia , Brasil , DNA de Cadeia Simples , DNA Viral/genética , Variação Genética , Genoma Viral/genética , Hemípteros/virologia , Solanum lycopersicum/virologia , Filogenia , Doenças das Plantas/virologia
9.
Phytopathology ; 112(11): 2440-2448, 2022 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-35694887

RESUMO

Two newly described viruses belonging to distinct families, Rhabdoviridae and Geminiviridae, were discovered co-infecting Hyptis pectinata from a tropical dry forest of Ecuador. The negative-sense RNA genome of the rhabdovirus, tentatively named Hyptis latent virus (HpLV), comprises 13,765 nucleotides with seven open reading frames separated by the conserved intergenic region 3'-AAUUAUUUUGAU-5'. Sequence analyses showed identities as high as 56% for the polymerase and 38% for the nucleocapsid to members of the genus Cytorhabdovirus. Efficient transmission of HpLV was mediated by the pea aphid (Acyrthosiphon pisum) in a persistent replicative manner. The single-stranded DNA genome of the virus tentatively named Hyptis golden mosaic virus (HpGMV) shared homology with members of the genus Begomovirus with bipartite genomes. The DNA-A component consists of 2,716 nucleotides (nt), whereas the DNA-B component contains 2,666 nt. Pairwise alignments using the complete genomic sequence of DNA-A of HpGMV and closest relatives showed identities below the cutoff (<91% shared nt) established by the ICTV as species demarcation, indicating that HpGMV should be classified in a distinct begomovirus species. Transmission experiments confirmed that the whitefly Bemisia tabaci Middle East-Asia Minor 1 (MEAM1) is a vector of HpGMV.


Assuntos
Begomovirus , Hemípteros , Hyptis , Rhabdoviridae , Animais , Hyptis/genética , Genoma Viral/genética , Virulência , Doenças das Plantas , Begomovirus/genética , Rhabdoviridae/genética , Insetos Vetores , Nucleotídeos , Filogenia
10.
Front Microbiol ; 13: 843035, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-35547137

RESUMO

Begomoviruses (Family Geminiviridae) are a major group of emerging plant viruses worldwide. The knowledge of begomoviruses is mostly restricted to crop plant systems. Nevertheless, it has been described that non-cultivated plants are important reservoirs and vessels of viral evolution that leads to the emergence of new diseases. High-throughput sequencing (HTS) has provided a powerful tool for speeding up the understanding of molecular ecology and epidemiology of plant virome and for discovery of new viral species. In this study, by performing earlier metagenomics library data mining, followed by geminivirus-related signature single plant searching and RCA-based full-length viral genome cloning, and based on phylogenetic analysis, genomes of two isolates of a novel monopartite begomovirus species tentatively named Galium leaf distortion virus (GLDV), which infects non-cultivated endemic plant Galium mexicanum, were identified in Colima, Mexico. Analysis of the genetic structure of both isolates (GLDV-1 and GLDV-2) revealed that the GLDV genome displays a DNA-A-like structure shared with the new world (NW) bipartite begomoviruses. Nonetheless, phylogenetic analysis using representative members of the main begomovirus American clades for tree construction grouped both GLDV isolates in a clade of the monopartite NW begomovirus, Tomato leaf deformation virus (ToLDeV). A comparative analysis of viral replication regulatory elements showed that the GLDV-1 isolate possesses an array and sequence conservation of iterons typical of NW begomovirus infecting the Solanaceae and Fabaceae families. Interestingly, GLDV-2 showed iteron sequences described only in monopartite begomovirus from OW belonging to a sweepovirus clade that infects plants of the Convolvulaceae family. In addition, the rep iteron related-domain (IRD) of both isolates display FRVQ or FRIS amino acid sequences corresponding to NW and sweepobegomovirus clades for GMV-1 and GMV-2, respectively. Finally, the lack of the GLDV DNA-B segment (tested by molecular detection and biological assays using GLDV-1/2 infectious clones) confirmed the monopartite nature of GLDV. This is the first time that a monopartite begomovirus is described in Mexican ecosystems, and "in silico" geometagenomics analysis indicates that it is restricted to a specific region. These data revealed additional complexity in monopartite begomovirus genetics and geographic distribution and highlighted the importance of metagenomic approaches in understanding global virome ecology and evolution.

11.
Front Plant Sci ; 13: 851939, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-35449884

RESUMO

Cotton (Gossypium spp. L., Malvaceae) is the world's largest source of natural fibers. Virus outbreaks are fast and economically devasting regarding cotton. Identifying new viruses is challenging as virus symptoms usually mimic nutrient deficiency, insect damage, and auxin herbicide injury. Traditional viral identification methods are costly and time-consuming. Developing new resistant cotton lines to face viral threats has been slow until the recent use of molecular virology, genomics, new breeding techniques (NBT), remote sensing, and artificial intelligence (AI). This perspective article demonstrates rapid, sensitive, and cheap technologies to identify viral diseases and propose their use for virus resistance breeding.

12.
Braz. j. biol ; 82: e262248, 2022. tab, ilus
Artigo em Inglês | VETINDEX | ID: biblio-1384040

RESUMO

Satellites associated begomoviruses are the most diverse group of plant viruses in tropical and subtropical regions. In Pakistan, during field surveys in 2019-2020, Sonchus palustris (a weed plant) was observed showing begomovirus symptoms i.e., vein yellowing and mosaic patterns on leaves. Rolling circle amplification from total isolated DNA of symptomatic leaves was performed to amplify circular viral genomes. Subsequent cloning and sequencing showed that a new strain of Alternanthera yellow vein virus (AlYVV) is associated with vein yellowing disease of S. palustris. The identity percentage analysis through BLAST search and SDT analysis showed that the new strain is 94-98% identical to AlYVV isolates reported from Pakistan, India and China. In phylogenetic tree, it clustered with AlYVV-[PK:E prostrata:15-KX710155], AlYVV-[PK:E prostrata:13]-KX906697] and AlYVV-[PK:E prostrata:11]-KX906694] previously reported from Pakistan. There was no detectable level of betasatellite or any other satellite molecule in the samples studied here. Phylogenetic analysis of Rep and CP genes of AlYVV with corresponding genes of closely related viruses circulating in Southeast Asia showed intra-specific recombination involving both complementary and virion sense region of virus. Relaxed clock and Bayesian Skyline Plot analysis based on CP gene sequences indicated slight higher substitution rates (4.75 x 10-3 substitutions/nucleotide/year). In the Indian subcontinent satellite-associated monopartite begomoviruses predominately infect crops and non-crop plants. But AlYVV is found infecting mostly non-crop plants independent of satellite molecules. We hypothesize here that AlYVV evolved as a true monopartite begomovirus in the Indian sub-continent and could be a great threat to introduced crops under suitable conditions. Such studies are crucial to understand probable future epidemics of begomoviruses in the region.


Os begomovírus associados aos satélites são o grupo mais diversificado de vírus de plantas encontrado em regiões tropicais e subtropicais. No Paquistão, durante pesquisas de campo entre 2019 e 2020, a espécie Sonchus palustris L. (uma planta daninha) foi observada apresentando sintomas de begomovírus, ou seja, amarelecimento das veias e padrões de mosaico nas folhas. A Amplificação em Círculo Rolante (ACR) a partir de DNA isolado total de folhas sintomáticas foi realizada para amplificar genomas virais circulares. A clonagem e sequenciamento subsequentes mostraram que uma nova cepa de Alternanthera yellow vein virus (AlYVV) está associada à doença do amarelecimento das veias de S. palustris. A análise da porcentagem de identidade por meio de pesquisa BLAST e análise SDT mostrou que a nova cepa é 94-98% idêntica aos isolados de AlYVV relatados no Paquistão, Índia e China. Na árvore filogenética, essa cepa se agrupou com AlYVV-[PK:E prostrata:15-KX710155], AlYVV-[PK:E prostrata:13]-KX906697] e AlYVV-[PK:E prostrata:11]-KX906694] relatada anteriormente de Paquistão. Não houve nível detectável de betassatélite ou qualquer outra molécula satélite nas amostras estudadas aqui. A análise filogenética de genes Rep e CP de AlYVV com genes correspondentes de vírus intimamente relacionados que estão circulando no Sudeste Asiático mostrou recombinação intraespecífica envolvendo a região complementar e de sentido viral do vírus. Relógio molecular relaxado e análise de Bayesian Skyline Plot (BSP) com base nas sequências do gene CP indicaram taxas de substituição ligeiramente mais altas (4,75 x 10-3 substituições/nucleotídeo/ano). No subcontinente indiano, os begomovírus monopartidos associados aos satélites infectam predominantemente culturas e plantas não cultivadas. Mas o AlYVV é encontrado infectando principalmente plantas não cultivadas, independentemente de moléculas satélites. Desenvolveu-se a hipótese de que o AlYVV evoluiu como um verdadeiro begomovírus monopartido no subcontinente indiano e pode ser uma grande ameaça às culturas introduzidas em condições adequadas. Tais estudos são cruciais para entender prováveis e ​​futuras epidemias de begomovírus na região.


Assuntos
Animais , Paquistão , Filogenia , Sonchus/parasitologia , Begomovirus
13.
MethodsX ; 8: 101496, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-34754767

RESUMO

Our group works on the detection and characterization of cassava viruses, supporting projects that involve large scale pathogen surveillance activities and resistance screening assays in multiple and remote locations. In order to comply with these applications, nucleic acid isolation protocols need to be cost effective, adjusted for samples that will stand long distance transport and harsh storage conditions, while maximizing the yield and quality of the nucleic acid extracts obtained. The method we describe here has been widely used and validated using different downstream tests (including, but not limited to, Rolling Circle Amplification and Illumina and Nanopore sequencing), but is currently unpublished. The protocol begins with milligram amounts of dry leaf samples stored in silica gel, does not require liquid Nitrogen nor phenol extraction and produces an average of 2.11 µg of nucleic acids per mg of dry tissue.•DNA purity estimations reveal OD260/280 ratios above 2.0 and OD260/230 ratios above 1.7, even for samples stored in silica gel for several months.•The high quality of the extracts is suitable for detection of DNA and RNA viruses, with high efficiency.•We suggest this method could be used as part of a gold standard kit for virus detection in cassava.

14.
Viruses ; 13(6)2021 06 16.
Artigo em Inglês | MEDLINE | ID: mdl-34208696

RESUMO

Viruses are an important disease source for beans. In order to evaluate the impact of virus disease on Phaseolus biodiversity, we determined the identity and distribution of viruses infecting wild and domesticated Phaseolus spp. in the Mesoamerican Center of Domestication (MCD) and the western state of Nayarit, Mexico. We used small RNA sequencing and assembly to identify complete or near-complete sequences of forty-seven genomes belonging to nine viral species of five genera, as well as partial sequences of two putative new endornaviruses and five badnavirus- and pararetrovirus-like sequences. The prevalence of viruses in domesticated beans was significantly higher than in wild beans (97% vs. 19%; p < 0.001), and all samples from domesticated beans were positive for at least one virus species. In contrast, no viruses were detected in 80-83% of the samples from wild beans. The Bean common mosaic virus and Bean common mosaic necrosis virus were the most prevalent viruses in wild and domesticated beans. Nevertheless, Cowpea mild mottle virus, transmitted by the whitefly Bemisia tabaci, has the potential to emerge as an important pathogen because it is both seed-borne and a non-persistently transmitted virus. Our results provide insights into the distribution of viruses in cultivated and wild Phaseolus spp. and will be useful for the identification of emerging viruses and the development of strategies for bean viral disease management in a center of diversity.


Assuntos
Biodiversidade , Domesticação , Phaseolus/virologia , Vírus de Plantas/classificação , Coinfecção , Biologia Computacional/métodos , Biblioteca Gênica , Sequenciamento de Nucleotídeos em Larga Escala , Filogenia , Filogeografia , Vírus de Plantas/genética
15.
Virus Res ; 292: 198234, 2021 01 15.
Artigo em Inglês | MEDLINE | ID: mdl-33232784

RESUMO

To evaluate and quantify the evolutionary dynamics of the bipartite begomovirus tomato severe rugose virus (ToSRV) in a cultivated and a non-cultivated host, plants of tomato and Nicandra physaloides were biolistically inoculated with an infectious clone and systemically infected leaves were sampled at 30, 75 and 120 days after inoculation. Total DNA was extracted and sequenced in the Illumina HiSeq 2000 platform. The datasets were trimmed with the quality score limit set to 0.01, and the assembly was performed using the infectious clone sequence as reference. SNPs were filtered using a minimum p-value of 0.001 and the sum frequencies were used to calculate the deviation from the original clone sequence. Nucleotide substitution rates were calculated for the two DNA components in both hosts: 1.73 × 10-3 and 3.07 × 10-4 sub/site/year for the DNA-A and DNA-B, respectively, in N. physaloides, and 8.05 × 10-4 and 7.02 × 10-5 sub/site/year the for DNA-A and DNA-B, respectively, in tomato. These values are in the same range of those estimated for viruses with single-stranded RNA genomes and for other begomoviruses. Strikingly, the number of substitutions decreased over time, suggesting the presence of bottlenecks during systemic infection. Determination of Shannon's entropy indicated different patterns of variation in the DNA-A and the DNA-B, suggesting distinct evolutionary forces acting upon each component.


Assuntos
Begomovirus/genética , DNA Viral/genética , Doenças das Plantas/virologia , Solanum lycopersicum/virologia , Begomovirus/fisiologia , Evolução Molecular , Genoma Viral , Filogenia
16.
Virus Genes ; 57(1): 127-131, 2021 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-33211226

RESUMO

Tomato yellow vein streak virus (ToYVSV) and tomato golden vein virus (TGVV) are begomoviruses reported infecting tomatoes and other hosts across South America. However, their close phylogenetic relationship has generated uncertainties about their taxonomic status and nomenclature. In fact, genomic DNA-A identity levels of isolates reported with an identical virus name may range from 89-100%. In view of the potential inaccuracy regarding the classification status of these viruses (strains vs. distinct species), we carried out a comprehensive set of analyses employing all 45 available isolates with complete DNA-A sequences with either ToYVSV or TGVV designation. Two clear-cut clusters were identified and they were consistent with the current criteria for Begomovirus species demarcation. Moreover, our reappraisal confirmed a large array of misnamed isolates and recognized a distinctive set of virus species-specific genomic, biological, and ecological features. Hence, the present work gives support to the notion that these viruses are closely-related, but they are distinct and valid Begomovirus species. From the breeding standpoint, this information will be useful in guiding germplasm screening strategies searching for sources of large-spectrum resistance to isolates of both viruses.


Assuntos
Begomovirus , Doenças das Plantas/virologia , Solanum lycopersicum/virologia , Begomovirus/classificação , Begomovirus/isolamento & purificação , DNA Viral , Variação Genética , Genoma Viral , Filogenia , América do Sul
17.
Virus Genes ; 57(1): 83-93, 2021 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-33236238

RESUMO

Yield losses induced by a complex of begomoviruses are observed across all major tomato-producing areas in Brazil. Tomato severe rugose virus (ToSRV) is the most widespread begomovirus in the country. Conversely, tomato common mosaic virus (ToCmMV) displays a more restricted geographical distribution to areas associated with the Atlantic Rain Forest (ARF) biome, encompassing the States of Espírito Santo-ES, Minas Gerais-MG, and Rio de Janeiro-RJ. Here, we characterized 277 tomato-infecting isolates collected in fields located within the ARF biome from 2006 to 2018. ToSRV displayed the highest prevalence (n = 157), followed by ToCmMV (n = 95) and tomato interveinal chlorosis virus (n = 14). Four other begomoviruses were also detected, but with very low incidences. ToCmMV was the predominant begomovirus in the ARF biome up to 2014-2015 with very low ToSRV incidence. Subsequently, ToSRV became the most prevalent species in ES and RJ, but ToCmMV was still predominating in the "Zona da Mata" meso-region in MG. Due to the remarkable endemic distribution of ToCmMV, we carried out phylogeographical studies of this virus using information from all 28 available isolates with complete DNA-A sequences. The closest common ancestor of ToCmMV was more likely originated around Coimbra-MG area ≈ 25 years before the formal report of this viral species. So far, all surveys indicated tomatoes as the only natural hosts of ToCmMV with outbreaks occurring mainly (but not exclusively) in highland areas. ToSRV shows a more widespread incidence across both highland and lowland areas of the ARF biome.


Assuntos
Begomovirus , Doenças das Plantas/virologia , Solanum lycopersicum/virologia , Begomovirus/classificação , Begomovirus/genética , Begomovirus/isolamento & purificação , Biodiversidade , Brasil , DNA Viral , Filogeografia , Floresta Úmida
18.
Plant Dis ; 2020 Dec 28.
Artigo em Inglês | MEDLINE | ID: mdl-33369486

RESUMO

An annual recurrent disease causing yield reduction in cultivated watermelon (Citrullus lanatus) was documented by the growers in different farms of Campeche state, Mexico. In April 2019 and March 2020 open field grown watermelon plants showed symptoms such as leaf curling, crumpling, and leaf basal or apical necrosis (Figure S1), with an incidence ranging from 30 up to 80%. These plants also presented high populations of whitefly, especially in the most affected fields. In order to identify the causal agent of the disease, a total of 22 symptomatic watermelon plants were collected in four locations from Campeche state. Total nucleic acids (DNA and RNA) were extracted from these leaf samples. Initially, RT-PCR analysis was performed with specific primers (Table S1) for cucurbit-infecting Crinivirus transmitted by whitefly but the expected size PCR product for those viruses was not amplified in any of these samples. To investigate the presence of cucurbit-infecting begomoviruses, PCR was performed by using specific primers for those begomoviruses reported in Mexico and north/central America including Squash leaf curl virus (SLCV), Watermelon chlorotic stunt virus (WmCSV), Melon chlorotic leaf curl virus (MCLCuV), and Cucurbit leaf crumple virus (CuLCrV) (Table S1). Only the expected amplicon size of ~1089 bp for CuLCrV was amplified from DNA extracts from all 22 watermelon samples, suggesting a single cucurbit-associated virus. The putative complete genome of the CuLCrV Campeche isolate was amplified by circular DNA enrichment using a Rolling Circle Amplification (RCA) procedure from two representative samples, followed by enzymatic digestion using BamHI, EcoRI, KpnI, and SacI enzymes (Inoue-Nagata et al., 2004). Expected linearized full-length viral components (~2.7 kb) were obtained with EcoRI and SacI, and both products, from one selected sample, were cloned in to pGreen0029 vector and were fully sequenced. Sequence analysis of the EcoRI clone, designated as LV2019Camp_A (deposited in GenBank accession no. MW273384) revealed the highest identity of 97.52% to CuLCrV DNA-A isolate Baja California Sur isolate (GeneBank accession no. MN625831.1), whereas the KpnI clone, designated as LV2019Camp_B (deposited in GenBank accession no. MW273385), shared 94.87% identity with DNA B of CuLCrV isolate Arizona (GeneBank accession no. AF327559.1). Subsequently, CuLCrV isolate Campeche-derived agroinfectious clone, was obtained by constructing a partial dimeric tandem repeat of both DNA-A and DNA-B components (Bang et al., 2014). Twelve watermelon plants were agroinfiltrated with the infectious clone at the fourth true leaf stage, resulting in symptomatic plants (11/12) exhibiting leaf yellowing, curling, and crumpling 15 days after agroinfiltrated (Figure S1), and CuLCrV infection was confirmed by PCR specific detection using DNA extract from non-inoculated leaves. Previously CuLCrV has been detected in the USA (Arizona, Texas, California, Florida, South Carolina, and Georgia), and north Mexico (Coahuila) infecting cucurbits including squash, cucumber, cantaloupe, pumpkin, and watermelon (Brown et al., 2000., Keinath et al., 2018), in both single and mixed infection with other whitefly transmitted RNA viruses (CYSDV, genera Crinivirus), and DNA viruses (SLCV, genera Begomovirus) (Kuo et al., 2007). To our knowledge, this is the first report of CuLCrV infecting a cucurbit crop in the Campeche state from the Yucatán peninsula, in Mexico.

19.
Insects ; 11(12)2020 Nov 28.
Artigo em Inglês | MEDLINE | ID: mdl-33260578

RESUMO

By having an extensive territory and suitable climate conditions, South America is one of the most important agricultural regions in the world, providing different kinds of vegetable products to different regions of the world. However, such favorable conditions for plant production also allow the development of several pests, increasing production costs. Among them, whiteflies (Hemiptera: Aleyrodidae) stand out for their potential for infesting several crops and for being resistant to insecticides, having high rates of reproduction and dispersal, besides their efficient activity as virus vectors. Currently, the most important species occurring in South America are Bemisia afer, Trialeurodes vaporariorum, and the cryptic species Middle East-Asia Minor 1, Mediterranean, and New World, from Bemisia tabaci complex. In this review, a series of studies performed in South America were compiled in an attempt to unify the advances that have been developed in whitefly management in this continent. At first, a background of the current whitefly distribution in South American countries as well as factors affecting them are shown, followed by a background of the whitefly transmitted viruses in South America, addressing their location and association with whiteflies in each country. Afterwards, a series of management strategies are proposed to be implemented in South American fields, including cultural practices and biological and chemical control, finalizing with a section containing future perspectives and directions for further research.

20.
Front Plant Sci ; 11: 1201, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-32849745

RESUMO

Understanding the molecular evolution and diversity changes of begomoviruses is crucial for predicting future outbreaks of the begomovirus disease in tomato crops. Thus, a molecular diversity study using high-throughput sequencing (HTS) was carried out on samples of infected tomato leaves collected between 2003 and 2016 from Central Brazil. DNA samples were subjected to rolling circle amplification and pooled in three batches, G1 (2003-2005, N = 107), G2 (2009-2011, N = 118), and G3 (2014-2016, N = 129) prior to HTS. Nineteen genome-sized geminivirus sequences were assembled, but only 17 were confirmed by PCR. In the G1 library, five begomoviruses and one capula-like virus were detected, but the number of identified viruses decreased to three begomoviruses in the G2 and G3 libraries. The bipartite begomovirus tomato severe rugose virus (ToSRV) and the monopartite tomato mottle leaf curl virus (ToMoLCV) were found to be the most prevalent begomoviruses in this survey. Our analyses revealed a significant increase in both relative abundance and genetic diversity of ToMoLCV from G1 to G3, and ToSRV from G1 to G2; however, both abundance and diversity decreased from G2 to G3. This suggests that ToMoLCV and ToSRV outcompeted other begomoviruses from G1 to G2 and that ToSRV was being outcompeted by ToMoLCV from G2 to G3. The possible evolutionary history of begomoviruses that were likely transferred from wild native plants and weeds to tomato crops after the introduction of the polyphagous vector Bemisia tabaci MEAM1 and the wide use of cultivars carrying the Ty-1 resistance gene are discussed, as well as the strengths and limitations of the use of HTS in identification and diversity analysis of begomoviruses.

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