Development of a Scale for Evaluation of Tomato yellow leaf curl virus Resistance Level in Tomato Plants

We have developed a scale of differential hosts that enables the determination and comparison of level of resistance to Tomato yellow leaf curl virus (TYLCV) expressed by resistant tomato lines or by individual plants in a segregating population. The scale is composed of seven different homozygous tomato genotypes that exhibit different levels of TYLCV resistance, ranging from fully susceptible to highly resistant. The differential hosts composing the scale were inoculated with TYLCV under greenhouse conditions. Four weeks after inoculation the plants were evaluated for disease symptom severity, and virus DNA titer was determined. The different genotypes were arranged in the scale according to symptom severity score. The different genotypes were then tested under different environmental conditions, inoculated at different ages, and tested in a field experiment assaying TYLCV-induced yield reduction. While the symptom severity score of each individual resistant genotype changed under different environmental conditions, the relative position on the scale did not alter, except for one genotype. Thus, to evaluate disease resistance of a given tomato genotype, the genotype in question should be inoculated alongside the differential hosts composing the scale, and within 4 weeks one can determine the relative level of resistance of the tested genotype.

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Interaction of tomato yellow leaf curl virus with diverse betasatellites enhances symptom severity

Archives of Virology ◽

10.1007/s00705-009-0431-8 ◽

2009 ◽

Vol 154 (8) ◽

pp. 1233-1239 ◽

Cited By ~ 16

Author(s):

Takuya Ito ◽

Junji Kimbara ◽

Pradeep Sharma ◽

Masato Ikegami

Keyword(s):

Symptom Severity ◽

Tomato Yellow Leaf ◽

Yellow Leaf ◽

Leaf Curl Virus ◽

Leaf Curl

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First Report of Tomato Yellow Leaf Curl Virus in Réunion Island

Plant Disease ◽

10.1094/pdis.1999.83.3.303b ◽

1999 ◽

Vol 83 (3) ◽

pp. 303-303 ◽

Cited By ~ 22

Author(s):

M. Peterschmitt ◽

M. Granier ◽

R. Mekdoud ◽

A. Dalmon ◽

O. Gambin ◽

...

Keyword(s):

Tomato Yellow Leaf ◽

Economic Losses ◽

Enzyme Linked Immunosorbent Assay ◽

Yield Reduction ◽

Yellow Leaf ◽

Degenerate Primers ◽

Capsid Protein Gene ◽

Pcr Product ◽

Leaf Curl Virus ◽

Leaf Curl

In September 1997, stunting, reduced leaf size, leaf curling, and yellow margins were observed on tomato plants on a farm on the south coast of Réunion, a French island belonging to the Mascarenes archipelago. To our knowledge, these symptoms appeared to be characteristic of a tomato yellow leaf curl virus (TYLCV) infection. Diseased plants gave positive reactions with a triple antibody sandwich-enzyme-linked immunosorbent assay (TAS-ELISA), using ADGEN antibodies specific for begomoviruses (1). The serological results were confirmed by polymerase chain reaction (PCR) with a pair of degenerate primers—MP16, 5′-CCTCTAGATAATATTAC(C/T)(G/T)(G/A)(A/T)(T/G)G(G/A)CC-3′ and MP82, 5′-CGGAATTC(T/C)TGNAC(C/T)TT(G/A)CANGGNCC(T/C)T C(G/A)CA-3′—designed by Malla Padidam (ILTAB, San Diego, CA) to amplify a region of the A component of begomoviruses, between the intergenic conserved nonanucleotide sequence (TAATATTAC) and the first 5′ quarter of the capsid protein gene. A 500-bp PCR product was obtained from a symptomatic plant but not from a healthy looking one. After cloning the PCR product in a pGEM-T Easy vector (Promega, Madison, WI) and sequencing it with plasmid-specific primers (SP6, T7), the sequence was compared with the sequences of the NCBI data base, with the use of BLAST. Nineteen sequences among those producing the highest scoring segment pairs were compared with each other and with the 500-bp PCR product from Réunion by the Clustal method of MegAlign (DNASTAR, London). The Réunion sequence (AJ010790) was at least 94% similar to sequences of TYLCV isolates from the Dominican Republic (AF024715), Cuba (AJ223505), and Israel (X15656, X76319 for the mild clone). Based on these results, it appeared that the analyzed tomato plant was infected by a geminivirus isolate belonging to the Israeli species of TYLCV. A preliminary survey was carried out from December 1997 to April 1998 in both outdoor and protected tomato crops. Infected plants were detected by TAS-ELISA in 52 of the 123 locations visited. Severe economic losses were observed: 14 locations with 60 to 100% yield reduction and 11 locations with 40 to 60% yield reduction. All the infected samples were collected in the leeward coast, which is the driest region of the island. Although Bemisia tabaci (Gennadius) has been recorded since 1938 in Réunion (2), it has been observed on tomato crops only since 1997 and population levels were low compared with those of Trialeurodes vaporariorum Westwood. During the first six months of 1998, B. tabaci was found on Euphorbia heterophylla L., Lantana camara L., Solanum melongena L., S. nigrum L., and Phaseolus vulgaris L. These host plants often occur near infected tomato crops. References: (1) S. Macintosh et al. Ann. Appl. Biol. 121:297, 1992. (2) L. Russell and J. Etienne. Proc. Entomol. Soc. Wash. 87:202, 1985.

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Integrated Management of Tomato Yellow Leaf Curl Virus and its Whitefly Vector in Tomato

Journal of Economic Entomology ◽

10.1093/jee/toz051 ◽

2019 ◽

Vol 112 (4) ◽

pp. 1526-1540 ◽

Cited By ~ 6

Author(s):

David G Riley ◽

Rajagopalbabu Srinivasan

Keyword(s):

Symptom Severity ◽

Virus Disease ◽

Disease Incidence ◽

Tomato Yellow Leaf ◽

Yellow Leaf ◽

Virus Family ◽

Tomato Yield ◽

Tomato Cultivars ◽

Leaf Curl Virus ◽

Leaf Curl

AbstractWhitefly-transmitted Tomato yellow leaf curl virus (Family Geminiviridae; Genus Begomovirus) severely restricts tomato production in the Southeastern United States. Whitefly and tomato yellow leaf curl virus management studies typically investigate control tactics individually, but successful management of this pest complex more often relies on a combination of tactics. This study examined the individual and combined effects of tomato yellow leaf curl virus-resistant cultivars, insecticides, and metallic reflective mulch on whiteflies, tomato yellow leaf curl virus disease incidence, and marketable tomato yields using split-split plot trials over 3 yr. Reflective mulch significantly reduced whitefly adults and nymphs and tomato yellow leaf curl virus symptom severity in all 3 yr of the study. Reflective mulch treatments also provided greater marketable tomato yield in 2 out of 3 yr. Imidacloprid and cyantraniliprole treatments reduced whitefly adults and nymphs’ establishment and marginally increased yields, but there was no significant insecticide effect on tomato yellow leaf curl virus incidence/symptom severity compared with the non-treated check. Virus-resistant tomato cultivars did not influence whitefly populations, but provided consistent reduction in virus disease incidence. Interactions between host plant resistance and insecticide treatments ranged from strongly additive in the standard white plastic mulch treatment to only marginally additive in the reflective mulch treatments in terms of enhancing tomato yields. tomato yellow leaf curl virus-resistant tomato cultivars and reflective mulch provided the bulk of the protection against tomato yellow leaf curl virus disease incidence. However, it was the combination of all the best tactics (reflective mulch, cyantraniliprole, ‘Security’ hyb. tomato yellow leaf curl virus-resistant) that provided the maximum increase in marketable tomato yield (2.8-fold) over the least effective combination (white mulch, no whitefly insecticide, ‘FL47’ hyb. tomato yellow leaf curl virus-susceptible).

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First Report of Tomato yellow leaf curl virus in Louisiana

Plant Disease ◽

10.1094/pdis.2001.85.2.230d ◽

2001 ◽

Vol 85 (2) ◽

pp. 230-230 ◽

Cited By ~ 11

Author(s):

R. A. Valverde ◽

P. Lotrakul ◽

A. D. Landry ◽

J. E. Boudreaux

Keyword(s):

The United States ◽

Tomato Yellow Leaf ◽

Yield Reduction ◽

Yellow Leaf ◽

Degenerate Primers ◽

Tomato Plants ◽

First Report ◽

Biotype B ◽

Leaf Curl Virus ◽

Leaf Curl

Tomato yellow leaf curl virus (TYLCV) is a begomovirus (Geminiviridae) that causes a serious disease of tomato throughout the world. In 1997, the strain from Israel of TYLCV (TYLCV-IS) was found infecting tomatoes in Florida for the first time in the United States (1). During late spring of 2000, approximately 90% of the tomato plants (Lycopersicon esculentum) in a farm near New Orleans exhibited severe stunting, leaf cupping, and chlorosis. Symptoms were similar to those caused by TYLCV. Whiteflies (Bemisia tabaci biotype B) were present in the field but in relatively low numbers. The effect on yield reduction varied from negligible (late infections) to 100% (early infections). Six selected plants showing symptoms were assayed by polymerase chain reaction (PCR) using begomovirus-specific primers. Capsicum frutescens infected with an isolate of Texas pepper virus from Costa Rica was used as positive control. DNA was extracted using Plant DNAzol Reagent (GIBCO BRL). PCR was conducted using degenerate primers AV494/AC1048 that amplify the core coat protein region of most begomoviruses (2). PCR yielded a DNA fragment of approximately 550 bp, suggesting that a begomovirus was associated with the disease. The amplified DNA of one field isolate was cloned and the nucleotide (nt) sequence determined. Sequence comparisons with other begomoviruses in the GenBank Database indicated that the Louisiana isolate shared 100% nt identity with TYLCV-IS (GenBank Accession X76319). Successful transmission (100%) to Bonny Best tomato were obtained with four groups of 10 whiteflies each (B. tabaci biotype B) that fed on TYLCV-IS infected tomato plants. Acquisition and transmission feedings were for 2 days. In all cases, the virus was diagnosed by the ability to reproduce typical TYLCV-like symptoms in tomato and PCR. The virus was also successfully graft-transmitted to tomato cv. Bonny Best, Nicotiana benthamiana, and tomatillo (Physalis ixocarpa) using scions from tomato plants infected with a whitefly transmitted virus isolate. This is the first report of TYLCV-IS in Louisiana. References: (1) J. E. Polston et al. Plant Dis. 83:984–988, 1999. (2) S. D. Wyatt and J. K. Brown. Phytopathology 86:1288–1293, 1996.

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Resistance to Tomato yellow leaf curl virus (TYLCV) in tomato: molecular mapping and introgression of resistance to Australian genotypes

10.32747/2010.7613888.bard ◽

2010 ◽

Author(s):

Ilan Levin ◽

John Thomas ◽

Moshe Lapidot ◽

Desmond McGrath ◽

Denis Persley

Keyword(s):

Dna Markers ◽

Symptom Severity ◽

Segregation Analysis ◽

Resistance Breeding ◽

Tomato Yellow Leaf ◽

Yellow Leaf ◽

Minor Qtls ◽

Leaf Curl Virus ◽

Major Qtl ◽

Leaf Curl

Tomato yellow leaf curl virus (TYLCV) is one of the most devastating viruses of cultivated tomatoes. Although first identified in the Mediterranean region, it is now distributed world-wide. Sequence analysis of the virus by the Australian group has shown that the virus is now present in Australia. Despite the importance of the disease and extensive research on the virus, very little is known about the resistance genes (loci) that determine host resistance and susceptibility to the virus. A symptom-less resistant line, TY-172, was developed at the Volcani Center which has shown the highest resistance level among all tested varieties. Preliminary results show that TY-172 is a good candidate to confer resistance to both TYLCV and to Tomato leaf curl virus (ToLCV) in Queensland conditions. Furthermore, Segregation analysis has previously indicated that the resistance is determined by 2-3 genes. In this proposal we aimed to substantiate that TY-172 can contribute to resistance breeding against TYLCV in Queensland, to develop DNA markers to advance such resistance breeding in both Israel and Queensland, and to exploit these markers for resistant breeding in Australian and Israeli lines. To map quantitative trait loci (QTLs) controlling TYLCVresistance in TY172, appropriate segregating populations were analyzed using 69 polymorphic DNA markers spanning the entire tomato genome. Results show that TYLCV resistance in TY172 is controlled by a previously unknown major QTL, originating from the resistant line, and four additional minor QTLs. The major QTL, termed Ty-5, maps to chromosome 4 and accounts for 39.7-to-46.6% of the variation in symptom severity among segregating plants (LOD score: 33-to-35). The minor QTLs, originated either from the resistant or susceptible parents, were mapped to chromosomes 1, 7, 9 and 11, and contributed 12% to the variation in symptom severity in addition to Ty-5. Further analysis of parental lines as well as large F₁, BC₁F₁, F₂ and BC₁F₂ populations originating from crosses carried out, in reciprocal manner, between TY172 and the susceptible processing line M-82 (LA3475) during spring-summer 2010, indicated that: (1) the minor QTLs we have previously identified are in effect not reproducible, (2)Ty-5 alone can yield highly resistant plants with practically no extra-chromosomal effects, and (3) the narrow-sense heritability estimate of resistance levels, attributed to additive factors responsive to selection, does not significantly deviate from 1. All of these results point to Ty-5 as the sole resistance locus in TY172 thus significantly increasing the likelihood of its successful molecular dissection. The DNA markers developed during the course of this study were transferred together with the TY172 genotype to Queensland. TY172 was crossed to a panel of Australian genotypes and the resulting populations were subjected to segregation analysis. Results showed that resistant locus, Ty-5, is highly reproducible in the Australian conditions as well. The Australian group was also able to make improvements to the marker assays by re-designing primer pairs to provide more robust PCR fragments. The Ty-5 locus has now been introgressed into elite Australian germplasm and selection for TYLCV resistance has begun. Cumulatively, our results show that Ty-5 can be effectively used, together with the TY172 genotype to expedite TYLCV resistance breeding and improve our understanding of the genetics that underline the response of tomato to TYLCV. Contributions to agriculture include: (1) the development of tools for more efficient resistance breeding, allowing the incorporation of resistance to local tomato varieties in Australia, Israel and elsewhere; and (2) establish a solid framework for a future attempt to clone the genes that encode such resistance. The latter will enable to decipher the resistance mechanisms that could be applied to other geminiviruses in tomato and possibly in other plant species.

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Control of the Bemisia tabaci/Tomato yellow leaf curl virus complex on protected tomato crops in Algarve (Portugal)*

EPPO Bulletin ◽

10.1046/j.1365-2338.2002.00558.x ◽

2002 ◽

Vol 32 (1) ◽

pp. 31-35

Author(s):

A. F. Arsenio ◽

E. Neto ◽

N. Ramos ◽

S. Mangerico ◽

E. Fortunato ◽

...

Keyword(s):

Bemisia Tabaci ◽

Tomato Yellow Leaf ◽

Yellow Leaf ◽

Virus Complex ◽

Leaf Curl Virus ◽

Leaf Curl

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Study of a collection of tomato hybrids with genetic resistance to the yellow leaf curl virus in Southern Russia

Kartofel` i ovoshi ◽

10.25630/pav.2020.32.41.007 ◽

2020 ◽

pp. 30-34

Author(s):

С.Ф. Гавриш ◽

Т.А. Редичкина ◽

А.В. Буц ◽

Г.М. Артемьева

Keyword(s):

Resistance Genes ◽

Molecular Genetic Analysis ◽

Tomato Yellow Leaf ◽

Tomato Mosaic Virus ◽

Average Weight ◽

Yellow Leaf ◽

The South ◽

Economically Valuable Traits ◽

Leaf Curl Virus ◽

Leaf Curl

Дана информация об изучении коллекции гибридов F1томата (Solanum lycopersicum L.) зарубежной селекции различных фирм-оригинаторов, рекомендованных производителями семян как толерантные к вирусу желтой курчавости листьев томата. Все гибриды обладали комплексом хозяйственно ценных признаков и набором генов устойчивости к основным заболеваниям томата, в том числе к новому для юга России опасному патогену с максимальным потенциальным риском – вирусу желтой курчавости листьев томата (Tomato yellow leaf curl virus — TYLCV). Исследования проведены в 2017-2018 годах в лаборатории пасленовых культур ООО «НИИСОК» и в лаборатории молекулярной диагностики растений ООО «Семеновод». Всего было протестировано 34 гибрида F1 томата. Гибриды оценивали по совокупности хозяйственно ценных признаков, также проводили молекулярно-генетический анализ на наличие и аллельное состояние основных генов устойчивости: к вирусу табачной мозаики (Tm2а), фузариозному увяданию (I2), вертициллезному увяданию (Ve), к кладоспориозу (Cf9), нематодам (Mi1.2), вирусу бронзовости томата (Sw5), вирусу желтой курчавости листьев томата (Ty3a). Установлено, что все проанализированные гибриды томата с заявленной оригинаторами семян устойчивостью к вирусу желтой курчавости листьев были гетерозиготны по гену Ty3a. На основании проведенных исследований и с учетом требований рынка разработаны модели гибридов F1 томата юга России. Перспективный гибрид томата должен обладать индетерминантным типом роста с укороченными междоузлиями (4,5-5 см) а также хорошей облиственностью. Плоды томата должны быть с красной равномерной окраской без зеленого пятна у плодоножки, с плоскоокруглой или округлой формой плода и со средней массой 220-270 г. Для повышения транспортабельности томатов необходимо, чтобы плоды отличались высокой прочностью и характеризовались хорошей лежкостью. Урожайность гибрида томата должна быть более 30 кг/м2, а товарность - не менее 85%. Гибрид томата должен обладать следующим набором генов устойчивости в гетерозиготном состоянии: Ty3a, Mi1.2, Cf-9, а также в гомозиготном состоянии: Tm2a, I2, Ve. The article provides information on the study of the collection of F1 tomato hybrids (Solanum lycopersicumL.) of foreign breeding from various firms-originators recommended for cultivation in regions with a strong spread of tomato yellow leaf curl virus. All hybrids had a complex of economically valuable traits and a set of genes for resistance to the main diseases of tomato, including a new dangerous pathogen for the South of Russia with a maximum potential risk — the tomato yellow leaf curl virus (TYLCV). The studies were carried out in 2017-2018 in the Solanaceae Laboratory of LLC NIISOK and in the Molecular Diagnostics Laboratory of Plants of LLC Semenovod. A total of 34 F1 tomato hybrids were tested. The hybrids were assessed by a set of economically valuable traits. Molecular genetic analysis was also carried out for the presence and allelic state of the main resistance genes: Tomato mosaic virus (Tm2a), Fusarium wilt (I2), Werticillium wilt (Ve), Cladosporium fulvum (Cf9), Nematodes (Mi1.2), Tomato spotted wilt virus (Sw5), Tomato yellow leaf curl virus (Ty3a). It was found that all the analyzed tomato hybrids with the declared by seed originators resistance to yellow leaf curl virus were heterozygous for the Ty3a gene. Based on the conducted research and taking into account the market requirements, models of F1 tomato hybrids for protected ground for the South of Russia have been developed. A promising tomato hybrid should have an indeterminate growth type with shortened internodes (4.5-5 cm) and good foliage. Tomato fruits should have a uniform red color without green shoulders, with a flat-round or round shape of the fruit and with an average weight of 220-270 g. To increase the transportability of tomatoes, it is necessary that the fruits are highly firm and characterized by good shelf life. The yield of tomato hybrid should be more than 30 kg/m2, and marketability should be at least 85%. The tomato hybrid should have the following set of resistance genes in a heterozygous state: Ty3a, Mi1.2, Cf-9, and also in a homozygous state: Tm2a, I2, Ve.

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