Hostname: page-component-8448b6f56d-sxzjt Total loading time: 0 Render date: 2024-04-23T13:08:40.181Z Has data issue: false hasContentIssue false
  • English
  • Français

Detection of tomato leaf curl virus resistance and inheritance in tomato (Solanum lycopersicum L.)

Published online by Cambridge University Press:  28 January 2014

R. K. SINGH ,
N. RAI ,
M. SINGH ,
S. SAHA  and
S. N. SINGH
R. K. SINGH
Affiliation:
Division of Crop Improvement, Indian Institute of Vegetable Research (IIVR), P.B. No. 5001, P.O. BHU, Varanasi 221005, UP, India Department of Botany, Udai Pratap Autonomous P.G. College, Bhojubir, Varanasi 221002, UP, India
N. RAI*
Affiliation:
Division of Crop Improvement, Indian Institute of Vegetable Research (IIVR), P.B. No. 5001, P.O. BHU, Varanasi 221005, UP, India
M. SINGH
Affiliation:
Division of Crop Improvement, Indian Institute of Vegetable Research (IIVR), P.B. No. 5001, P.O. BHU, Varanasi 221005, UP, India
S. SAHA
Affiliation:
Division of Crop Protection, Indian Institute of Vegetable Research (IIVR), P.B. No. 5001, P.O. BHU, Varanasi 221005, UP, India
S. N. SINGH
Affiliation:
Department of Botany, Udai Pratap Autonomous P.G. College, Bhojubir, Varanasi 221002, UP, India
*
*To whom all correspondence should be addressed. Email: nrai1964@gmail.com
Get access Rights & Permissions [Opens in a new window]

Summary

Tomato leaf curl virus (TLCV) is a major viral disease in tomato that causes quantitative and qualitative losses to the crop. One hundred and fifty three tomato genotypes were screened for three consecutive years (2006–09) under glasshouse and field conditions for TLCV resistance. The incidence of disease was higher during the Rabi season as compared to the Kharif season trials. The reactions of different genotypes were studied by artificial inoculation. Based on the coefficient of infection, nine genotypes (viz. EC-520049 (Solanum chmielewskii), EC-520058, EC-520060 and EC-520061 (S. habrochaites), EC-520070, EC-520071, EC-520077, EC-520079 (S. pimpinellifolium) and H-88-78-1(S. lycopersicum; a derivative of S. habrochaites f. glabratum) were found to be highly resistant in both environments. H-88-78-1 was used for inheritance studies during 2008–10. Using F2 Mendelian segregation, populations showed a 3 (resistant):1 (susceptible) ratio for TLCV disease and were proposed to have both additive and dominant non-allelic gene interactions for various traits.

Type
Crops and Soils Research Papers
Information
The Journal of Agricultural Science , Volume 153 , Issue 1 , January 2015 , pp. 78 - 89
Copyright
Copyright © Cambridge University Press 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Banerjee, M. K. & Kalloo, G. (1987 a). Sources and inheritance of resistance to leaf curl virus in Lycopersicon . Theoretical and Applied Genetics 73, 707710.Google ScholarPubMed
Banerjee, M. K. & Kalloo, G. (1987 b). Inheritance of tomato leaf curls virus resistance in Lycopersicon hirsutum f. glabratum . Euphytica 36, 581584.Google Scholar
Banerjee, M. K. & Kalloo, G. (1989). The inheritance of earliness and fruit weight in crosses between cultivated tomatoes and two wild species of Lycopersicon . Plant Breeding 102, 148152.CrossRefGoogle Scholar
Borah, B. K. & Dasgupta, I. (2012). Begomovirus research in India: a critical appraisal and the way ahead. Journal of Bioscience 37, 791806.CrossRefGoogle ScholarPubMed
Coaker, G. L., Meulia, T., Kabelka, E. A., Jones, A. K. & Francis, D. M. (2002). A QTL controlling stem morphology and vascular development in Lycopersicon esculentum×Lycopersicon hirsutum (Solanaceae) crosses is located on chromosomes 2. American Journal of Botany 89, 18591866.CrossRefGoogle Scholar
Cohen, H. & Antignus, Y. (1994). Tomato yellow leaf curl virus, a whitefly-borne geminivirus of tomatoes. In Advances in Disease Vector Research (Ed. Harris, K. F.), pp. 259288. New York: Springer.CrossRefGoogle Scholar
Delatte, H., Dalmon, A., Rist, D., Soustrade, I., Wuster, G., Lett, J. M., Goldbach, R. W., Peterschmitt, M. & Reynaud, B. (2003). Tomato yellow leaf curl virus can be acquired and transmitted by Bemisia tabaci (Gennadius) from tomato fruit. Plant Disease 87, 12971300.Google ScholarPubMed
Devi, E. S., Singh, N. B., Devi, A. B., Singh, N. G. & Laishram, J. M. (2005). Gene action for fruit yield and its components in tomato (Lycopersicon esculentum Mill.). Indian Journal of Genetics and Plant Breeding 65, 221222.Google Scholar
Dhaliwal, M. S., Gupta, A., Singh, S. & Cheema, D. S. (2001). Assessment of genetic potential for economically important characters in an inter-varietal cross of tomato: P-4-5-2 × UC 82-8. Indian Journal of Genetics and Plant Breeding 61, 178179.Google Scholar
Eberhart, S. A. & Russell, W. A. (1966). Stability parameters for comparing varieties. Crop Science 6, 3640.CrossRefGoogle Scholar
Gonzalo, M. J. & van der Knaap, E. (2008). A comparative analysis into the genetic bases of morphology in tomato varieties exhibiting elongated fruit shape. Theoretical and Applied Genetics 116, 647656.Google ScholarPubMed
Hanson, P. M., Bernacchi, D., Green, S., Tanksley, S. D., Muniyappa, V., Padmaja, A. S., Chen, H-M., Kuo, G., Fang, D. & Chen, J-T. (2000). Mapping a wild tomato introgression associated with tomato yellow leaf curl virus resistance in a cultivated tomato line. Journal of the American Society for Horticultural Science 125, 1520.CrossRefGoogle Scholar
Hayman, B. I. (1958). The separation of epistatic effects from additive and dominance variance in generation means. Journal of Heredity 12, 371390.CrossRefGoogle Scholar
Ji, Y., Scott, J. W., Hanson, P., Graham, E. & Maxwell, D. P. (2007). Sources of resistance, inheritance, and location of genetic loci conferring resistance to members of the tomato-infecting begomoviruses. In Tomato Yellow Leaf Curl Virus Disease (Ed. Czosnek, H.), pp. 343362. Dordrecht, The Netherlands: Springer.CrossRefGoogle Scholar
Kalloo, G. & Banerjee, M. K. (1990). Transfer of tomato leaf curl virus resistance from Lycopersicon hirsutum f. glabratum to L. esculentum . Plant Breeding 105, 156159.CrossRefGoogle Scholar
Kalloo, G. & Banerjee, M. K. (2000). H-24: Moderately leaf curl resistant variety of tomato (Lycopersicon esculentum Mill.). Vegetable Science 27, 117120.Google Scholar
Konaté, G., Barro, N., Fargette, D., Swanson, M. M. & Harrison, B. D. (2008). Occurrence of whitefly transmitted Geminiviruses in crops in Burkina Fasso and their serological detection and differentiation. Annals of Applied Biology 126, 121129.CrossRefGoogle Scholar
Kumar, B., Mistry, N. C., Singh, B. & Gandhi, C. P. (2011). Indian Horticulture Database 2011. Gurgaon, India: National Horticulture Board, Ministry of Agriculture, Govt. of India.Google Scholar
Mather, K. & Jinks, J. L. (1971). Biometrical Genetics: The Study of Continuous Variation. Ithaca, NY, USA: Cornell University Press.CrossRefGoogle Scholar
Monforte, A. J. & Tanksley, S. D. (2000). Development of a set of near isogenic and backcross recombinant inbred lines containing most of the Lycopersicon hirsutum genome in a L. esculentum genetic background: a tool for gene mapping and gene discovery. Genome 43, 803813.CrossRefGoogle Scholar
Moustafa, S. E. (1991). Tomato cultivation and breeding program for Tomato yellow leaf curl virus. In Resistance of the Tomato to TYLCV. Proceedings of the Seminar of EEC Contract DG XII – TS2 – A – 055 F (CD) partners (Eds Laterrot, H. & Trousse, C.), pp. 68. Paris, France: INRA.Google Scholar
Muniyappa, V., Padmaja, A. S., Venkatesh, H. M., Sharma, A., Chandrasekhar, S., Kulkarni, R. S., Hanson, P. M., Chen, J. T., Green, S. K. & Colvin, J. (2002). Tomato leaf curl virus resistant tomato lines TLB111, TLB130, and TLB182. HortScience 37, 603606.Google Scholar
Nono-Womdim, R., Swami, I. S., Green, S. K., Gebre-Selassie, K., Laterrot, H., Marchoux, G. & Opena, R. T. (1996). Tomato viruses in Tanzania: identification, distribution and disease incidence. Journal of South African Society of Horticultural Science 6, 4144.Google Scholar
Padmini, K. & Vadivel, E. (1996). Genetic analysis in tomato (Lycopersicon esculentum Mill.). South Indian Horticulture 44, 7174.Google Scholar
Pico, B., Diez, M. J. & Nuez, F. (1998). Evaluation of whitefly mediated inoculation techniques to screen Lycopersicon esculentum and wild relatives for resistance to TYLCV. Euphytica 101, 259271.CrossRefGoogle Scholar
Pornsuriya, P. & Pornsuriya, P. (2009). Study on genetic effects in fruit shape of oriental pickling melon. Journal of Agricultural Technology 5, 385390.Google Scholar
Shankarappa, K. S., Sriharsha, , Rangaswamy, K. T., Aswathanarayana, D. S., Prameela, H. A., Kulkarni, R. S., Muniyappa, V., Rao, A. M. & Maruthi, M. N. (2008). Development of tomato hybrids resistant to tomato leaf curl virus disease in South India. Euphytica 164, 531539.CrossRefGoogle Scholar
Shekara, A. C. C., Kulkarni, R. S. & Muniyappa, V. (2003). Triple test cross analysis of tomato leaf curl virus resistance in tomato (Lycopersicon esculentum Mill.). Journal of Genetics and Plant Breeding 63, 185186.Google Scholar
Singh, R. K., Rai, N. & Singh, S. N. (2010). Response of tomato genotypes to tomato leaf curl virus. Indian Journal of Agricultural Sciences 80, 755758.Google Scholar
Tripathi, S. & Varma, A. (2002). Identification of sources of resistance in Lycopersicon species to Tomato leaf curl geminivirus (ToLCV) by agroinoculation. Euphytica 129, 4352.CrossRefGoogle Scholar
Vidavsky, F., Leviatov, S., Milo, J., Rabinowitch, H. D., Kedar, N. & Czosnek, H. (1998). Response of tolerant breeding line of tomato, Lycopersicon esculentum, originating from three different sources (L. pruvianum, L. pimpinellifolium and L. chilense) to early controlled inoculation by tomato yellow leaf curl virus (TYLCV). Plant Breeding 117, 165169.CrossRefGoogle Scholar
Vidavski, F., Czosnek, H., Gazit, S., Levy, D. & Lapidot, M. (2008). Pyramiding of genes conferring resistance to tomato yellow leaf curl virus from different wild tomato species. Plant Breeding 127, 625631.CrossRefGoogle Scholar
Zdravkovic, J., Zivoslav, M., Mirjana, M., Bogoljub, Z. & Milan, Z. (2000). Epistatic gene effects on the yield of the parents of F1, F2, BC1 and BC2 progeny. Acta Physiologiae Plantarum 22, 261265.Google Scholar
Zdravkovic, J., Pavlovic, N., Girek, Z., Brdar-Jokanovic, M., Savic, D., Zdravkovic, M. & Cvikic, D. (2011). Generation mean analysis of yield components and yield in tomato (Lycopersicon esculentum Mill.). Pakistan Journal of Botany 43, 15751580.Google Scholar