Traditional and transgenic strategies for controlling tomato-infecting begomoviruses

Viruses of to the family Geminiviridae are considered some of the most important pathogens in tropical and subtropical regions of the world. Members of one Geminiviridae genus, Begomovirus, have been causing severe losses, particularly in tomato (Lycopersicon esculentum) production in the Americas and the Caribbean. Several new begomoviruses have been reported in the region and, at least one, Tomato yellow leaf curl virus (TYLCV), has been brought in from the Old World via infected transplants. In addition, the recombination events that are playing an important role in Begomovirus diversity have increased the complexity of their control. This scenario has led to the search for control measures that go beyond traditional host genetic resistance, chemical controls and cultural practices. In this review, besides the recommended classical control measures, transgenic approaches will be discussed, as well as the mechanisms involved in their successful control of viruses.

Caracterização de uma nova estirpe do Tomato mosaic virus isolada de tomateiro no Estado de São Paulo

Um vírus isolado em Guaratinguetá, SP, de tomateiro (Lycoporsicon esculentum) 'Santa Clara' com sintomas característicos de virose, foi estudado por meio de plantas indicadoras e de hospedeiras diferenciais pertencentes a linhagens homozigotas de tomateiro, ensaios de estabilidade in vitro, purificação, contrastação negativa, testes sorológicos de ELISA-PTA e imunomicroscopia eletrônica, utilizando-se anti-soros contra diferentes vírus do gênero Tobamovirus. O isolado infetou plantas de espécies de amarantáceas, quenopodiáceas e solanáceas. Plantas de Chenopodium amaranticolor reagiram com sintomas locais e sistêmicos; Nicotiana sylvestris e N. rustica reagiram com lesões locais e a linhagem homozigota de tomateiro Tm-2 mostrou-se imune ao vírus. Nas preparações purificadas de contrastação negativa, foram observadas partículas rígidas e alongadas com cerca de 300 nm. O isolado foi identificado como um tobamovírus, com anti-soros contra o Tomato mosaic virus (ToMV) e Tobacco mosaic virus (TMV). As hospedeiras diferenciais indicaram se tratar de ToMV. Por meio de RT-PCR, com oligonucleotídeos para o gene da capa protéica de espécies do gênero Tobamovirus do subgrupo 1, amplificaram-se fragmentos com 850 pb que foram clonados e seqüenciados. A similaridade de nucleotídeos e aminoácidos deduzidos variou entre 85 e 91% quando a seqüência do ToMV-SP foi comparada com outras sequências de ToMV, 75 e 83% quando comparada com as do TMV e 67 e 72% quando comparada com a do Odontoglossum ringspot virus (ORSV). As comparações com outras espécies de tobamovírus apresentaram valores de similaridade inferiores a 65%. Confirmou-se a identidade dos vírus como sendo uma nova estirpe do ToMV.

Print-capture PCR for detection of tomato begomoviruses from plants and whiteflies

Print-capture (PC) Polymerase chain reaction (PCR) was evaluated as a novel detection method of plant viruses. Tomato (Lycopersicon esculentum) plants infected with begomovirus (fam. Geminiviridae, gen. Begomovirus) and viruliferous whiteflies were used to study the efficiency of the method. Print-capturing steps were carried out using non-charged nylon membrane or filter paper as the solid support for DNA printings. Amplified DNA fragments of expected size were consistently obtained by PCR from infected plants grown in a greenhouse, after direct application of printed materials to the PCR mix. However, virus detection from a single whitefly and from field-grown tomato samples required a high temperature treatment of printed material prior to PCR amplification. Comparison of nylon membrane and filter paper as the solid support revealed the higher efficiency of the nylon membrane. The application of print-capture PCR reduces the chances of false-positive amplification by reducing manipulation steps during preparation of the target DNA. This method maintains all the advantages of PCR diagnosis, such as the high sensitivity and no requirement of radioactive reagents.

Tomato chlorotic spot virus in hydroponically-grown lettuce in São Paulo State, Brazil

In the regions of Campinas and Sumaré, São Paulo, Brazil, hidroponically grown crops of Lettuce (Lactuca sativa) cv. Verônica, which showed virus-like symptoms were examined by electron microscope, biological, serological and molecular tests. Pleomorphic, enveloped particles (80-100 nm in diameter) were always detected in these samples. Experimentally inoculated host plants, including lettuce, reacted with tospoviruses-induced symptoms. Some differences were observed in Gomphrena globosa, which reacted by showing local lesions and systemic mosaic. Two isolates of Tomato chlorotic spot virus (TCSV) were identified by DAS-ELISA and by RT-PCR. The sequencing and alignment of the RT-PCR coat protein amplified fragments have indicated a high degree of homology with the TCSV sequences stored in the GenBank. This is the first report of losses due to a virus from the genus Tospovirus in commercial hydroponic lettuce crops in Brazil. Further epidemiological studies are needed for better understanding the spread of the virus in hydroponic crops, since Tomato spotted wilt virus (TSWV) is reported to spread through the nutritive solution.

Distinct features of Pepper yellow mosaic virus isolates from tomato and sweetpepper

Determination of virus diversity in the field is vital to support a sustainable breeding program for virus resistance of horticultural crops. The present study aimed to characterize four field potyvirus isolates found naturally infecting sweet pepper (Capsicum annuum) (Sa66 and Sa115) and tomato (Lycopersicon esculentum) (IAC3 and Sa21) plants. Their biological characteristics revealed differences among the isolates in their ability to infect distinct Capsicum spp. and tomato genotypes, and in the severity of symptoms caused by these isolates compared to the infection caused by an isolate of Pepper yellow mosaic virus (PepYMV). Absence of cross-reaction was found among the studied isolates with antiserum against Potato virus Y (PVY). However, all isolates reacted, at different intensities, with antiserum against PepYMV. All isolates showed high identity percentage (97 to 99%) of the amino acid sequence of the coat protein with PepYMV (accession AF348610) and low (69 to 80%) with other potyvirus species. The comparison of the 3' untranslated region also confirmed this finding with 97 to 98% identity with PepYMV, and of 47 to 71% with other potyviruses. The results showed that PepYMV isolates were easily differentiated from PVY by serology and that the host response of each isolate could be variable. In addition, the nucleotide sequence of the coat protein and 3' untranslated region was highly conserved among the isolates.

Potential of non-pathogenic Fusarium oxysporum isolates for control of Fusarium wilt of tomato

This study was done to evaluate the efficiency of non-pathogenic Fusarium oxysporum isolates (141/3, 233, 233/1, 245, 245/1, 251, 251/2, 251/5, and 257) in controlling vascular wilt caused by F. oxysporum f. sp. lycopersici, race 2 (isolates C-21A, TO11, and TO245) in tomato (Lycopersicon esculentum) cv. Viradoro seedlings. In order to determine the effect of non-pathogenic F. oxysporum isolates in tomato plants, the root system of 30-day-old seedlings was immersed in conidial suspensions (10(6) ml-1) of each isolate and the seedlings were transplanted to a cultivation substrate. Thirty-five days after transplanting it was observed that the non-pathogenic F. oxysporum isolates were not pathogenic to the cv. Viradoro nor did they affect seedling development. The efficiency of the non-pathogenic F. oxysporum isolates in controlling Fusarium wilt was determined by immersing the tomato seedling roots in the conidial suspension (10(6) ml-1) of each isolate and then transplanting them into substrates previously infested with isolates of F. oxysporum f.sp. lycopersici, race 2 (10(5) conidia ml-1 of substrate). Evaluations were performed 35 days after transplanting, for severity in scale with 1=healthy plant to 6=dead plant or plant showing vessel browning and wilted leaves up to the leader shoot and seedling height. The non-pathogenic F. oxysporum isolates were efficient in reducing the severity of the disease and maintaining normal plant development. These results provide evidence of the antagonistic activity of non-pathogenic F. oxysporum isolates in controlling vascular wilt caused by F. oxysporum f. sp. lycopersici race 2 in tomato.

First report of Fusarium oxysporum f. sp. lycopersici race 3 on tomato in Brazil

Fusarium wilt, caused by three races of Fusarium oxysporum f. sp. lycopersici, is one of the most important diseases of tomato (Lycopersicon esculentum). Races 1 and 2 are distributed worldwide whereas race 3 has a more limited geographic distribution with no report thus far in Brazil. Seven F. oxysporum isolates were obtained from wilted tomato plants of race 1 and 2-resistant hybrids 'Carmen' and 'Alambra' in Venda Nova do Imigrante (State of Espírito Santo), Brazil. Virulence assays were performed using a set of the race differential cultivars: 'Ponderosa' (susceptible to all races), 'IPA-5' (resistant to race 1), 'Floradade' (resistant to races 1 and 2) and 'BHRS-2,3' (resistant to race 3). All isolates were highly virulent to 'Ponderosa', 'IPA-5' and 'Floradade' and were able to infect only a few plants of 'BHRS-2,3'. An additional virulence test was conducted including the same set of cultivars plus Lycopersicon pennellii 'LA 716'. Identical results were obtained with L. pennellii displaying an extreme (immune-like) resistant response. These results indicated that all seven isolates could be classified as F. oxysporum f. sp. lycopersici race 3. This new Fusarium wilt might became an economically important disease since race 3-resistant cultivars adapted to Brazil are not yet available.

Resistência de cultivares e linhagens de tomateiro a Tomato chlorotic spot virus e a Potato virus Y

Linhagens avançadas do programa de melhoramento do tomateiro (Lycopersicon esculentum) do IAC foram avaliadas em condições de campo em Campinas (SP) para resistência a tospovírus e a potyvírus, nos anos agrícolas 2002/2003 e 2003/2004, respectivamente. No primeiro ano, a única espécie de tospovírus que ocorreu na área experimental foi Tomato chlorotic spot virus (TCSV). As sete linhagens do grupo IAC exibiram baixa porcentagem de plantas sintomáticas em duas avaliações, com médias abaixo de 28%; as cultivares testadas mostraram-se altamente suscetíveis, com médias acima de 85%, à exceção de 'Franco', que apresentou cerca de 55% de infecção. No segundo experimento, conduzido em 2003/2004, dez linhagens do grupo IAC foram comparadas com cinco cultivares de polinização aberta e híbridos F1, além do acesso LA-444-1 de L. peruvianum. Nesse experimento, por meio de testes biológicos e sorológicos, verificou-se ocorrência generalizada de Potato virus Y (PVY). Foi determinado o percentual de plantas com sintomas e avaliada a intensidade dos sintomas mediante uso de escala de notas. Com base nos dois critérios, verificou-se que LA-444-1 apresenta alta resistência a PVY, que 'Tyrade' exibe comportamento intermediário, enquanto todos os demais genótipos demonstram alta suscetibilidade ao vírus. O comportamento dos genótipos avaliados neste trabalho mostra a necessidade de se considerar, nos programas de melhoramento do tomateiro, a introgressão de fatores de resistência não só a vírus de importância atual nas regiões produtoras, como geminivírus, mas também a outros vírus potencialmente nocivos à cultura, como tospovírus e potyvírus.