A 16SrII-D Phytoplasma strain associated with Tomato Witches'- Broom in Bushehr province, Iran

Salehi, Elham; Salehi, Mohammad; Taghavi, Seyed Mohsen; Izadpanh Jahromi, Keramatollah

doi:10.48311/jcp.2014.1135

A 16SrII-D Phytoplasma strain associated with Tomato Witches'- Broom in Bushehr province, Iran

10.48311/jcp.2014.1135

Volume 3, Issue 3
September 2014

Pages 377-388

Authors

E. Salehi ¹

M. Salehi ²

S. M. Taghavi ¹

K. Izadpanh Jahromi ¹

¹ Department of Plant Protection, College of Agriculture, Shiraz University, Shiraz, Iran.

² Agricultural and Natural Resources Research Center of Fars, Iran.

Abstract

In 2010- 2012 surveys, witches'- boom disease of tomato was observed in Borazjan area (Bushehr province, Iran). Agent of the disease was transmitted from tomato to tomato and eggplant by grafting and to Madagascar periwinkle via dodder inoculation, inducing phytoplasma-type symptoms in inoculated plants. Presence of phytoplasma in naturally affected tomatoes and all symptomatic graft and dodder inoculated plants was confirmed by direct and nested polymerase chain reactions (PCR) using primer pairs P₁/P₇ and R₁₆F_2n/R₁₆R₂. BLAST search and phylogenetic analysis of 16SrDNA showed that detected phytoplasma belonged to peanut witches'- broom (16SrII) group. Phylogenetic analysis, percent homology and virtual RFLP indicated that, as a member of 16SrII group, Borazjan tomato witches’- broom (BTWB) phytoplasma together with Bushehr eggplant and alfalfa witches’- broom (BEWB and BAWB, respectively) phytoplasmas were classified with Candidatus Phytoplasma australasia, a phytoplasma related to 16SrII-D subgroup. Based on the same analysis, BTWB, BEWB and BAWB phytoplasmas were differentiable from three other Iranian 16SrII related phytoplasmas associated with alfalfa witches'- broom diseases in Yazd and Fars provinces and lime witches'- broom disease in southern Iran.This is the first report of tomato witches'- broom disease and characterization of its associated phytoplasma in Iran.

Keywords

tomato diseases

phytoplasmas

witches'- broom

graft and dodder transmission

16SrII-D subgroup

20.1001.1.22519041.2014.3.3.2.1

Akhtar, K. P., Shah, T. M., Atta, B. M., Dickinson, M., Hodgetts, J., Khan, R. A., Haq, M. A. and Hameed, S. 2009. Symptomatology, etiology and transmission of chickpea phyllody disease in Pakistan. Journal of Plant Patholology, 91: 649-653.
Alfaro-Fernández, A., Abdalla Ali, M., Mobarak Abdelraheem, F., Abd Elhameed Saeed, E. and Isabel Font San Ambrosio, M. 2012. Molecular identification of 16SrII-D subgroup phytoplasmas associated with chickpea and faba bean in Sudan. European Journal of Plant Pathology, 133: 791-795.
Alhudaib, K. and Razq, A. 2011. First report of witches’ broom disease of tomato associated with phytoplasmas in Saudi Arabia. Bulletin of Insectology 64: 237-238.
Amaral mello, A. P. O., Flôres, D. and Bedendo, I. P. 2006. Identificação do fitoplasma associado ao enfezamento dorepolho, através de análise de RFLP. Fitopatologia Brasileira, 31: 239.
Anfoka, G. H. A., Khalil, A. B. and Fattash, I. 2003. Detection an molecular characterization of phytoplasma associated with big bud disease of tomatoes in Jordan. Journal of Phytopathology, 151: 223-227.
Anonymous (2008) Agricultural statistics of the year 2008. The Organization of Statistics and Information Publication, Iran.
Arocha, Y., Antesana, O., Montellano, E., Franco, P., Plata, G. and Jones, P. 2007. ‘Candidatus Phytoplasma lycopersici’, a phytoplasma associated with ‘hoja de perejil’ disease in Bolivia. Intermational Journal of Systematic and Evolutionary Microbiology, 57: 1704-1710.
Brcak, J. 1979. Leafhopper and planthopper vectors of plant disease agents in central and southern Europe. pp 97-146 In: Leafhopper Vectores and Plant Disease Agents. K. Maramorosh. and K. F. Harris (Eds.). Academic Press, New York.
Dale, J. L. and Smith, L. D. 1975. Mycoplasmalike bodies observed in tomato plants with big bud in Arkansas. Plant Disease Reporter, 59: 455-458.
Dehghani, A. and Salehi, M. 2011. Tomato big bud disease in Lorestan province. Iranian Journal of Plant Pathology, 47: 165.
DelSerrone, P., Merzachi, C., Bragaloni, M. and Galeffi, P. 2001. Phytoplasma infection of tomato in central Italy. Phytopathologia Mediterranea, 40: 137-142.
Du, Y., Mou, H., Shi, B., Xu, X. and Xiang, B. 2013. Mollecullar Detection and Identification of a 16SrVI group phytoplasma associated with big bud disease in Xinjiang, China. Journal of Phytopathology, 161: 870-873.
Efron, B. 1982. The jackknife, the bootstrap and other resampling plans. SIAM Philadelphia, PA.
EPPO/CABI. 1996. Potato stolbur phytoplasma. In: I. M. Smith, D. G. McNamara, P. R.Scott. and M. Holderness (Eds.), Quarantine pests for Europe, 2nd edn. CAB INTERNATIONAL, Wallingford.
Granett, A. L. and Provvidenti, R. 1974. Tomato big bud in New York State. Plant Disease Reporter, 58: 211-214.
Gundersen, D. E. and Lee, I. M. 1996. Ultrasensitive detection of phytoplasmas by nested-PCR assays using two universal primer pairs. Phytopathologia Mediterranea, 35: 144-151.
Holguín-Peña, R. J. and Vázquez-Juárez, R C. 2007. First report of a 16SrI-B group phytoplasma associated with a yellows-type disease affecting tomato plants in the Baja California Peninsula of Mexico. Plant Disease, 91: 328.
Jamshidi, E., Jafarpoor, B., Roohani, H. and Salehi, M. 2011.Tomato big bud disease in Khorasan-e Razavi and Khorasan-e Shomali provinces. Proceedings of the 19th Iranian Plant Protection Congress, Tehran, Iran: 482.
Khan, A. J., Botti, S., Al-Subhi, A. M., Gundersen-Rindal, D. E. and Bertaccini, A. F. 2002. Molecular identification of a new phytoplasma associated with alfalfa witches’ broom in Oman. Phytopathology, 92: 1038-1047.
Lee, I. M., Gundersen-Rindal, D. E., Davis, R. E. and Bartoszik, I. M. 1998. Revised classification scheme of phytoplasma based on RFLP analyses of 16S rDNA and ribosomal protein gene sequences. International Journal of Systematic Bacteriology, 1153-1169.
Marcone, C., Lee, I. M., Davis, R. E., Ragozzino, A. and Seemuller, E. 2000. Classification of aster yellows-group phytoplasmas based on combined analysis of rRNA and TUF gene sequence. International Journal of Systematic and Evolutionary Microbiology, 50: 1703-1713.
Marcone, C., Ragozzino, A. and Seemuller, E. 1997. Detection and identification of phytoplasmas infecting vegetable, ornamental and foliage crops in southern Italy. Journal of Plant Pathology, 79: 211-217.
Okuda, S., Prince, J. P., Davis, R. E., Dally, E. L., Lee, I. M., Margone, B. and Kato, S. 1997. Two groups of phytoplasmas from Japan distinguished on the basis of amplification and restriction analysis of 16S rDNA. Plant Disease, 81: 301-305.
Omar, A. F. and Foissac, X. 2012. Occurrence and incidence of phytoplasmas of the 16SrII-D subgroup on solanaceous and cucurbit crops in Egypt. European Journal of Plant Pathology, 133: 353-360.
Pearce, T. and Scott, J. B. 2011. First report of witches’- broom phytoplasma (16SrII-D Group) in purple coneflower in Australia. Plant Disease, 95: 773.
Ploaie, P.G. 1981. Mycoplasma organisms and plant diseases in Europe. pp 66-104 In: Leafhopper Vectores and Plant Disease Agents. K. Maramorosh and K.F. Harris (Eds.). Academic Press, New York.
Rashidi, M., Ghosta, Y. and Bahar, M. 2006. Russian olive (Elaeagnus angustifolia L.), a new host for phytoplasma from Iran. Proceeding of 17th Iranian Plant Protection Congress, Iran: 349.
Salehi, M. and Izadpanah, K. 1992. Etiology and transmission of sesame phylloy in Iran. Journal of Phytopathology, 135: 37-47.
Salehi, M., Izadpanah, K. and Siampour, M. 2008. First Report of ‘Candidatus Phytoplasma trifolii’-Related Strain Associated with Safflower Phyllody Disease in Iran. Plant Disease, 92: 649.
Sambrook, J., Fritsch, E. F. and Maniatis, T. 1989. Molecular Cloning: A Laboratory Manual. II edn. Cold Spring Harbour Laboratory Press, Cold Spring Harbour, New York.
Schneider, B., Seemuller, E., Smart, C. D. and Kirkpatrick, B. C. 1995. Phylogenetic classification of plant pathogenic mycoplasma like organisms or phytoplasmas. In: Molecular and Diagnostic Procedures in Mycoplasmology, S. Razin. and J. G. Tully (Eds.), Academic Press, San Diego, pp. 369-380.
Sertkaya, G., Martini, M., Musetti, R. and Osler, R. 2007. Detection and molecular characterization of phytoplasmas infecting sesame and solanaceous crops in Turkey. Bulletin of Insectology 60: 141-142.
Shaw, M. E., Kirkpatrick, B. C. and Golino, D. 1993. The beet leafhopper-transmitted virescence agent cause tomato big bud disease in California. Plant Disease, 77: 290-295.
Singh, J., Rani, A., Kumar, P., Baranwal, V. K., Saroj, P. L. and Sirohi, A. 2012. First report of a 16SrII-D phytoplasma 'Candidatus Phytoplasma australasia' associated with a tomato disease in India. New Disease Reports: 14.
Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M. and Kumar, S. 2011. MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, Evolutionary distance, and maximum parsimony methods. Molecular Biology and Evolution, 28: 2731-2739.
Tapia-Tussell, R., Suaste-Dzul, A., Cortes-Velazquez, A., Torres-Calzada, C., Quijano-Ramayo, A., Martin-Mex, R., Nexticapan-Garcez, A. and Perez-Brito, D. 2012. Molecular characterization of Yucatan tomato phytoplasma (Group 16Sr III). African Journal of Biotechnology, 11: 2169-2177.
Valenta, V., Musil, M. and Misiga, S. 1961. Investigations on European yellows type viruses. I. The stolbur virus. Phytopathologlsche Zeltschrift, 42: 1-38.
Varma, J. P. 1979. Occurrence of tomato big bud like disease in Haryana. Science and Culture, 45: 205-207.
Vellios, E. and Lioliopoulou, F. 2007. Detection and characterization of phytoplasmas infecting tomato plants in Greece. Bulletin of Insectology, 60: 157-158.
White, D. T., Blackall, L. L., Scott, P. T. and Walsh, K. B. 1998. Phylogenetic positions of phytoplasmas associated with dieback, yellow crinkle and mosaic diseases of papaya, and their proposed inclusion in ' Candidatus Phytoplasma australiense ' and a new taxon, 'Candidatus Phytoplasma australasia'. International Journal of Systematic Bacteriology, 48: 941-951.
Xu, X., Mou, H-Q., Zhu, S. F., Liao, X. L. and Zhao, W. J. 2013. Detection and characterization of phytoplasma associated with big bud disease of tomato in China. Journal of Plant Pathology, 161: 430-433.
Zhang, Y., Uyemoto, J. K. and Kirkpatrick, B. C. 1998. A small-scale procedure for extracting nucleic acids from woody plants infected with various phytopathogens for PCR assay. Journal of Virological Methods, 71: 45-50.
Zhao, Y., Sun, Q., Wei, W., Davis, R. E., Wu, W. and Liu, Q. 2009. ‘Candidatus Phytoplasma tamaricis’, a novel taxon discovered in witches’ broom diseased salt cedar (Tamarix chinensis Lour.). International Journal of Systematic and Evolutionary Microbiology, 59: 2496-2504.
Zimmerman-Gries, S. and Klein, M. 1978. A tomato big bud-like disease of tomatoes in Israel and its association with mycoplasmalike organisms. Plant Disease Reporter, 62: 590-594.

XML

PDF 450.63 K