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Leaf Curl Disease (leaf + curl_disease)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Molecular Characterization of a Strain of Squash Leaf Curl China Virus from the Philippines

JOURNAL OF PHYTOPATHOLOGY, Issue 10 2003
T. Kon
Abstract The complete nucleotide sequence of infectious cloned DNA components (A and B) of the causal agent of squash leaf curl disease in the Philippines was determined. DNA-A and DNA-B comprise 2739 and 2705 nucleotides, respectively; the common region is 174 bases in length. Five ORFs were found in DNA-A and two in DNA-B. Partial dimeric clones containing DNA-A and DNA-B, constructed in a binary vector and transformed into Agrobacterium tumefaciens, induced systemic infection in agro-inoculated pumpkin plants (Cucurbita moschata). The total DNA-A sequence was most closely related to that of Squash leaf curl China virus (SLCCNV) (88% identity), although the existence of B component of SLCCNV has not been reported. The deduced coat protein was like that of SLCCNV (98% amino acid sequence identity) and the Philippines virus has low sequence identity to Squash leaf curl virus (SLCV) and Squash mild leaf curl virus (SMLCV) (63 and 64% total nucleotide sequence identities, respectively). From these results, we propose that the Philippines virus be designated Squash leaf curl China virus -[Philippines] (SLCCNV-[PH]). [source]

Cotton leaf curl Multan virus newly reported to be associated with cotton leaf curl disease in China

PLANT PATHOLOGY, Issue 4 2010
J. H. Cai
No abstract is available for this article. [source]

Yellow leaf curl disease of pumpkin in Thailand is associated with Squash leaf curl China virus

PLANT PATHOLOGY, Issue 4 2008
T. Ito
No abstract is available for this article. [source]

Evaluation of Gossypium species for resistance to cotton leaf curl Burewala virus

ANNALS OF APPLIED BIOLOGY, Issue 1 2010
K.P. Akhtar
Cotton leaf curl disease (CLCuD), caused by cotton leaf curl Burewala virus (CLCuBV), has emerged as a major threat to cotton production in Pakistan. Resistance to CLCuBV was evaluated in cultivated and wild cotton genotypes representing six Gossypium species by visual symptom scoring and virus assessment using PCR tests. Considerable variation in responses was observed when using whitefly and graft transmission to inoculate Gossypium genotypes with CLCuBV in field and greenhouse experiments. Under field evaluation, all cultivated genotypes of Gossypium hirsutum and three genotypes of G. barbadense were susceptible. Eleven genotypes that represented six wild and cultivated Gossypium species were considered to be highly resistant as they were free from infection. Similar results were obtained when these genotypes were tested using whitefly transmission. To verify these findings, 132 cultivated and wild genotypes were tested by graft inoculation. All G. hirsutum genotypes (116 cultivated, 1 wild, 1 transgenic Coker-312 and 1 non-transgenic Coker-312), three G. barbadense genotypes and one G. thurberi genotype were highly susceptible and exhibited symptoms 9,12 days after grafting. Four genotypes of G. arboreum and one genotype of G. anomalum did not express symptoms but had a detectable level of virus. One genotype of G. herbaceum and three wild genotypes of G. hirsutum showed mild symptoms (severity indexes of 1,2) and exhibited delayed disease development. These genotypes were classified as moderately resistant to resistant. Resistant genotypes that were identified in this study will be useful sources for exploitation of breeding programmes aimed at developing CLCuBV-resistant varieties and increasing genetic diversity. [source]

Host range, vector relationships and sequence comparison of a begomovirus infecting hibiscus in India

ANNALS OF APPLIED BIOLOGY, Issue 1 2005
R. Rajeshwari
Abstract Hibiscus leaf curl disease (HLCuD) occurs widely in India. Infected hibiscus plants show vein thickening, upward curling of leaves and enations on the abaxial leaf surface, reduction in leaf size and stunting. The commonly-occurring weeds (Ageratum conyzoides, Croton bonplandianum and Euphorbia geniculata), Nicotiana benthamiana, Nicotiana glutinosa and Nicotiana tabacum (var. Samsun, Xanthi), cotton and tomato were shown to be susceptible to HLCuD. One of the four species of hibiscus (Hibiscus rosa-sinensis) and 75 of the 101 commercial hybrids/varieties grown in the Bangalore area of southern India were also susceptible. Two virus isolates associated with HLCuD from Bangalore, South India (Ban), and Bhubaneswar, North India (Bhu), were detected serologically and by PCR-mediated amplification of virus genomes. The isolates were characterised by sequencing a fragment of DNA-A component (1288 nucleotides) and an associated satellite DNA molecule of 682 nucleotides. Phylogenetic analyses of these DNA-A sequences clustered them with Old World cotton-infecting begomoviruses and closest to Cotton leaf curl Multan virus (CLCuMV) at 95,97% DNA-A nucleotide identities. The 682-nucleotide satellite DNA molecules associated with the HLCuD samples Ban and Bhu shared 96.9% sequence identity with each other and maximum identity (93.1,93.9% over positions 158,682) with ,1350-nucleotide DNA-, satellite molecules associated with cotton leaf curl disease in Pakistan and India (accession nos AJ298903, AJ316038). HLCuD in India, therefore, appears to be associated with strains of CLCuMV, a cotton-infecting begomovirus from Pakistan, which is transmitted in a persistent manner by Bemisia tabaci. [source]