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Citrus variegation virus: Molecular Variability of a Portion of the RNA 3 Containing the Coat Protein Gene and Design of Primers for RT-PCR Detection

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Abstract

The coat protein gene and part of the intergenic region of the RNA 3 of several isolates of Citrus variegation virus (CVV) producing either infectious variegation or crinkly leaf symptoms were amplified by RT-PCR, cloned and sequenced. Some isolates were composed of a mixture of sequence variants. The coat protein gene appeared to be highly conserved (lowest similarity among all CVV sequences 93%), especially at the N-terminal, indicating at the molecular level that both types of symptoms are indeed produced by the same virus species. No relationship could be found with the geographic origin. Sequences obtained from isolates producing infectious variegation clustered in a different branch of a dendrogram than those originating from crinkly leaf symptoms. Both clusters could further be distinguished by two parsimonious sites in the coat protein gene. In the short stretch of the intergenic RNA 3 region analysed, a stable hairpin exists in addition to the previously reported hairpin that constitutes the core promoter for the RNA 4 transcription. This second hairpin could also be recognised in the other subgroup 2 Ilarviruses. Surprisingly, at the nucleotide and amino acid levels and in the secondary features of the intergenic region, CVV appeared closer to the other subgroup 2 Ilarviruses than to Citrus leaf rugose virus to which it is serologically related and has been considered to be evolutionary related. Using primers designed for the conserved regions, the virus was detected with a prevalence of 25% and 13% in Portuguese and Moroccan citrus collections. A group of RT-PCR positives was further confirmed by ELISA and biological indexing.

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References

  • Ansel-Mc Kinney P, Scott SW, Swanson M, Ge X and Gehrke L (1996) A plant viral coat protein RNA binding consensus sequence contains a crucial arginine. EMBO Journal 15: 5077–5084

    Google Scholar 

  • Aparicio F, Myrta A, Di Terlizzi B and Pallas V (1999) Molecular variability of Prunus Necrotic Ringspot Virus from different Prunus spp. Phytopathology 89: 991–998

    Google Scholar 

  • Bol JF (1999) Alfamovirus and Ilarvirus (Bromovidae). In: Granoff A and Webster RG (eds) Encyclopaedia of Virology, 2nd ed (pp 38–43) Academic Press, San Diego, USA

    Google Scholar 

  • Bracho MA, Moya A and Barrio E (1998) Contribution of Taq polymerase-induced errors to the estimation of RNA virus diversity. Journal of General Virology 79: 2921–2928

    Google Scholar 

  • Buchen-Osmond C (2001) The universal virus database: descriptions, illustrations, identification and information retrieval. ICTVdB version 3. http://life.bio.edu/ICTVdB/index.htm

  • Davino M and Garnsey SM (1984) Purification, characterization and serology of a mild strain of citrus infectious variegation virus from Florida. Proceedings of the International Organisation of Citrus Virologists 9: 196–203

    Google Scholar 

  • Davino M, Areddia R and Garnsey SM (1988) Distribution of citrus variegation virus within citrus hosts. Proceedings of the International Organisation of Citrus Virologists 10: 322–326

    Google Scholar 

  • Desjardins PR and Bové JM (1980) Infectious variegation and crinkly leaf. In: Bové JM and Vogel R (eds) Description and Illustration of Virus and Virus Like Diseases of Citrus. A Collection of Colour Slides, IOCV, 2nd vol. IRFA

  • Duran-Vila N, Cambra M, Pina JA, Ballester JF and Navaro L (1988) Virus content and growth patterns of callus cultured in vitro from healthy and virus infected Citrus species. Proceedings of the International Organisation of Citrus Virologists 10: 310–321

    Google Scholar 

  • Garnsey SM (1968) Additional non-citrus hosts for the Florida isolate of citrus variegation virus. Phytopathology 58: 1433–1434

    Google Scholar 

  • Garnsey SM, Baksh N, Davio M and Agostini JP (1984) A mild isolate of Citrus Variegation Virus found in Florida Citrus. Proceedings of the International Organisation of Citrus Virologists 9: 188–195

    Google Scholar 

  • Gonsalves D and Fulton RW(1977) Activation of prunus necrotic ringspot and rose mosaic virus by RNA 4 components of some ilarviruses. Virology 81: 398–407

    Google Scholar 

  • Hall TA (1999) BioEdit: a user-friendly biological sequence alignment editor and analysis program forWindows 95/98/NT. Nucleic Acids Symposium Series 41: 95–98

    Google Scholar 

  • Hammond RW and Crosslin JM (1998) Virulence and molecular polymorphism of Prunus necrotic ringspot virus isolates. Journal of General Virology 79: 1815–1823

    Google Scholar 

  • Hughes DW and Galau G (1988) Preparation of RNA from cotton leaves and pollen. Plant Molecular Biology Reports 6: 253–257

    Google Scholar 

  • Jaspars EMJ (1998) A core hairpin is essential for subgenomic RNA synthesis in Alfalfa mosaic alfamovirus and is conserved in other Bromoviridae. Virus Genes 17: 233–242

    Google Scholar 

  • Lovisolo O (1993) Agro-ecology and centres of origin of graft-transmissible diseases of citrus. Proceedings of the International Organisation of Citrus Virologists 12: 406–441

    Google Scholar 

  • Malboeuf CM, Isaacs SJ, Tran NH and Kim B (2001) Thermal effects on reverse transcription: improvement of accuracy and processivity incDNA synthesis. BioTechniques 30: 1074–1084

    Google Scholar 

  • Neeleman L, Van der Kuyl AC and Bol JF (1991) Role of alfalfa mosaic virus coat protein gene in symptom formation. Virology 181: 687–693

    Google Scholar 

  • Roistacher CN (1991) Graft-transmissible diseases of citrus. Handbook for Detection and Diagnosis. FAO, Rome, 286 pp

    Google Scholar 

  • Scott SW and Ge X (1995) The complete nucleotide sequence of RNA3 of citrus leaf rugose and citrus variegation Ilarviruses. Journal of General Virology 76: 957–963

    Google Scholar 

  • Scott SW, Zimmerman MT, Ge X and Mackenzie DJ (1998) The coat proteins and movement proteins of isolates of prunus necrotic ringspot virus from different host species and geographic origins are extensively conserved. European Journal of Plant Pathology 104: 155–161

    Google Scholar 

  • van Vloten-Doting L (1975) Coat protein is required for infectivity of tobacco streak virus: biological equivalence of the coat proteins of tobacco streak and alfalfa mosaic virus. Virology 65: 215–225

    Google Scholar 

  • Vaskova D, Petrzic K and Spak J (2000) Molecular variability of the capsid protein of the prune dwarf virus. European Journal of Plant Pathology 106: 573–580

    Google Scholar 

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Authors and Affiliations

  1. Universidade do Algarve/FERN, 8000, Faro, Portugal

    Bahia Bennani & Gustavo Nolasco

  2. Faculté des sciences Aïn Chock, Université Hassan II, Casablanca, Morocco

    Bahia Bennani & Houssine Azeddoug

  3. Centro de Citricultura, 8000, Faro, Portugal

    Celso Mendes

  4. Domaines Agricoles, Unité de contrôle des Plantes, Rabat, Morocco

    Mustapha Zemzami

Authors
  1. Bahia Bennani
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  2. Celso Mendes
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  3. Mustapha Zemzami
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  4. Houssine Azeddoug
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  5. Gustavo Nolasco
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Correspondence to Gustavo Nolasco.

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Bennani, B., Mendes, C., Zemzami, M. et al. Citrus variegation virus: Molecular Variability of a Portion of the RNA 3 Containing the Coat Protein Gene and Design of Primers for RT-PCR Detection. European Journal of Plant Pathology 108, 155–162 (2002). https://doi.org/10.1023/A:1015009019552

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  • DOI: https://doi.org/10.1023/A:1015009019552

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