Breakdown of resistance in cotton to cotton leaf curl disease in Pakistan

Mansoor, Shahid; Amin, Imran; Iram, Shazia; Hussain, Mazhar; Zafar, Yusuf; Malik, K. A.; Briddon, R. W.

doi:10.1111/j.1365-3059.2003.00893.x

Cited by 100 publications

(82 citation statements)

References 3 publications

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“…If the strategies are used in isolation, inbred resistance could potentially fail in the face of continuous long-term exposure to diverse rapidly mutating and recombining begomovirus populations. This is exactly what happened in Pakistan in the 2000s, when the massive deployment of cotton cultivars with resistance to Cotton leaf curl Multan virus led to the quick emergence of the resistance-breaking recombinant virus Cotton leaf curl Burewala virus, which is now prevalent in that country (87,88). Complementary control measures, such as insecticide use, crop rotation, and implementation of a tomatofree period, should be investigated for concurrent use with resistant genotypes to obstruct the evolution and spread of resistancebreaking viral lineages.…”

Section: Figmentioning

confidence: 91%

Brazilian Begomovirus Populations Are Highly Recombinant, Rapidly Evolving, and Segregated Based on Geographical Location

Rocha

Urquiza

Lima

et al. 2013

J Virol

108

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eThe incidence of begomovirus infections in crop plants sharply increased in Brazil during the 1990s following the introduction of the invasive B biotype of the whitefly vector, Bemisia tabaci. It is believed that this biotype transmitted begomoviruses from noncultivated plants to crop species with greater efficiency than indigenous B. tabaci biotypes. Either through rapid host adaptation or selection pressure in genetically diverse populations of noncultivated hosts, over the past 20 years various previously unknown begomovirus species have became progressively more prevalent in cultivated species such as tomato. Here we assess the genetic structure of begomovirus populations infecting tomatoes and noncultivated hosts in southeastern Brazil. Between 2005 and 2010, we sampled and sequenced 126 DNA-A and 58 DNA-B full-length begomovirus components. We detected nine begomovirus species in tomatoes and eight in the noncultivated host samples, with four species common to both tomatoes and noncultivated hosts. Like many begomoviruses, most species are obvious interspecies recombinants. Furthermore, species identified in tomato have probable parental viruses from noncultivated hosts. While the population structures of five well-sampled viral species all displayed geographical subdivision, a noncultivated host-infecting virus was more genetically variable than the four predominantly tomato-infecting viruses.

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Section: Figmentioning

confidence: 91%

Brazilian Begomovirus Populations Are Highly Recombinant, Rapidly Evolving, and Segregated Based on Geographical Location

Rocha

Urquiza

Lima

et al. 2013

J Virol

108

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“…However, the dynamic nature of virus populations permits the evolution of new strains that can adapt to increasingly changing agricultural practices. In particular, such variability should enable viruses with quasispecies pools to overcome crop resistance and subsequently result in epidemics of viral diseases (22). Thus, the effective use of virus-resistant cultivars and management of viral diseases requires a better understanding of the genetic structures and evolutionary trajectories of virus populations.…”

mentioning

confidence: 99%

Genetic Structure and Population Variability of Tomato Yellow Leaf Curl China Virus

Liu

Zhang

Zhou

et al. 2007

J Virol

118

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Geminiviruses have circular single-stranded DNA genomes and are important pathogens in tropical and subtropical regions, but their population diversity and variability are poorly understood. Here, we have investigated variations accumulating in Tomato yellow leaf curl China virus (TYLCCNV), a geminivirus in the genus Begomovirus of the family Geminiviridae. The population variation was analyzed in a naturally infected tomato (Solanum lycopersicom) plant and in Nicotiana benthamiana and tomato plants experimentally infected with a swarm of TYLCCNV DNA clones to provide an identical sequence for initiation of infection. Our results demonstrate that the population of TYLCCNV in a naturally infected tomato plant was genetically heterogeneous and that rapid mutation occurred in the populations amplified from N. benthamiana and tomato plants that had been infected with cloned DNA. This feature of the population of TYLCCNV in these plants consisted of the consensus sequence and a pool of mutants that are not identical but are closely related to the consensus sequence, and it coincides with the quasispecies concept described for many RNA viruses. The mutation frequency was circa 10 ؊4 in N. benthamiana and tomato at 60 days postinoculation, a value comparable to that reported for plant RNA viruses. The quasispecies-like nature of the TYLCCNV populations suggested that TYLCCNV is capable of rapid evolution and adaptation in response to changing agricultural practices.Virus-resistant crops, characterized by their resistance to a particular strain of a virus, offer one of the most cost-effective strategies for the management of plant viral diseases. However, the dynamic nature of virus populations permits the evolution of new strains that can adapt to increasingly changing agricultural practices. In particular, such variability should enable viruses with quasispecies pools to overcome crop resistance and subsequently result in epidemics of viral diseases (22). Thus, the effective use of virus-resistant cultivars and management of viral diseases requires a better understanding of the genetic structures and evolutionary trajectories of virus populations.Previous research on plant viral population structures and evolution has mainly focused on plant RNA viruses (reviewed in references 9, 12, and 27-29). The populations of plant RNA viruses are intrinsically genetically heterogeneous, and such populations are designated as quasispecies. The quasispecies concept suggests that the population of a virus, even in a single replicating population, is essentially a collection of variants varying around the consensus sequence (6, 7).Members of the genus Begomovirus of the family Geminiviridae, which have circular single-stranded DNA genomes, are transmitted by the whitefly Bemisia tabaci Genn. in a semipersistent circulating manner (26). Due to the worldwide increases in the population and distribution of the insect vector and global movement of plant materials, begomovirus-induced diseases have become a major constraint on crop produ...

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“…By this technique a number of CLCuMV resistant mutants were developed (Awan et al, 1998;Akhtar et al, 2000Akhtar et al, , 2002bAkhtar et al, , 2004. During 2001 a resistance breaking strain appeared and all the resistant germplasm became susceptible (Akhtar et al, 2002a(Akhtar et al, , 2008(Akhtar et al, , 2010Mansoor et al, 2003).…”

Section: Partial Resistance Of Cotton Mutant To Clcubv 1101mentioning

confidence: 99%

Short communication. Partial resistance of a cotton mutant to Cotton leaf curl Burewala virus

Akhtar

Khan

Ahmad

et al. 1970

Span. j. agric. res.

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Cotton leaf curl disease (CLCuD), caused by Cotton leaf curl Burewala virus (CLCuBV), is a major constraint for a successful production of cotton in Pakistan. All the available cotton cultivars are susceptible to this virus. Breeding for resistance to CLCuBV is the best tactic to reduce economic losses caused by this virus. In the absence of a resistant source the present investigations were carried out to find out CLCuBV-resistant genotypes by mutagenization. NIAB-111 (female parent) was crossed separately with two male parents, NIAB-999 and CIM-499. The resulting F 1 seeds were gamma irradiated. Resistance to CLCuBV was evaluated by visual symptom scoring in the f ield conditions and in nethouse/greenhouse using whitefly and graft inoculations. Out of 20 mutants tested in M 5 generation, one, mutant M-112-59/22 showed partial resistance to CLCuBV, as concluded from its low severity index (SI) of 2.3 and percent disease index (PDI) of 20. M-112-59/22 consistently expressed resistance to CLCuBV in the normal cotton growing season, while it showed a more moderate resistance response when sown late in the field, or under greenhouse conditions following inoculation by whiteflies (SI = 3.3) or graft inoculation (SI= 3.4). The yield per plant of M-112-59/22 was higher than its parents with desirable fiber characteristics even under conducive disease development conditions. These results show that mutant M-112-59/22 is a CLCuBV partially resistant source when yield, fiber quality and response to virus infection are collectively taken into consideration.Additional key words: begomovirus; CLCuBV; CLCuD; Gossypium hirsutum; partially resistant mutant. ResumenComunicación corta. Resistencia parcial de un mutante de algodón al virus Burewala de la hoja rizada del algodón La enfermedad de la hoja rizada del algodón (CLCuD), causada por el virus Burewala de la hoja rizada del algodón (CLCuBV), es un obstáculo importante para la producción de algodón en Paquistán, ya que todos los cultivares de esta planta son susceptibles a este virus. La mejor táctica para reducir las pérdidas económicas causadas por este virus es la mejora genética para resistencia a CLCuBV. Este trabajo se llevó a cabo para buscar genotipos resistentes a CLCuBV por mutagenización. NIAB-111 (progenitor femenino) se cruzó por separado con dos progenitores masculinos, NIAB-999 y CIM-499. Las semillas F 1 resultantes fueron tratadas con radiación gamma y se evaluó la resistencia a CLCuBV por visualización de los síntomas en campo y mediante inoculaciones con mosca blanca y por injerto en invernadero. Se analizaron 20 mutantes en la generación M 5 y uno de ellos, M-112-59/22, mostró resistencia parcial a CLCuBV, como se deduce de su bajo índice de severidad (SI = 2,3) y bajo porcentaje de incidencia de enfermedad (PDI = 20). M-112-59/22 expresó consistentemente resistencia a CLCuBV durante la temporada normal del algodón, mientras que mostró una resistencia más moderada cuando se sembró tardíamente o en condiciones de invernadero tras inoculaciones med...

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Breakdown of resistance in cotton to cotton leaf curl disease in Pakistan

Cited by 100 publications

References 3 publications

Brazilian Begomovirus Populations Are Highly Recombinant, Rapidly Evolving, and Segregated Based on Geographical Location

Brazilian Begomovirus Populations Are Highly Recombinant, Rapidly Evolving, and Segregated Based on Geographical Location

Genetic Structure and Population Variability of Tomato Yellow Leaf Curl China Virus

Short communication. Partial resistance of a cotton mutant to Cotton leaf curl Burewala virus

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