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Search for Vigna species conferring resistance to Mungbean yellow mosaic virus in mungbean

Published online by Cambridge University Press:  15 August 2014

M. Sudha*
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
A. Karthikeyan
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
V. G. Shobhana
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
P. Nagarajan
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
M. Raveendran
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
N. Senthil
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
M. Pandiyan
Affiliation:
National Pulse Research Centre, Tamil Nadu Agricultural University, Vamban, Pudukkottai, Tamil Nadu, India
K. Angappan
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
P. Balasubramanian
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
R. Rabindran
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
M. Bharathi
Affiliation:
Department of Plant Molecular Biology & Biotechnology, Centre for Plant Molecular Biology, Tamil Nadu Agricultural University, Coimbatore, Tamil Nadu, India
*
*Corresponding author. E-mail: [email protected]

Abstract

Mungbean yellow mosaic virus (MYMV) is a disastrous pathogen of mungbean. It is widespread in most of southern India and no complete resistance has been identified among its commercial cultivars. Two isolates of MYMV, representing its diversity, were used to assess and characterize the susceptibility reaction of all the three species of Vigna. The seeds were agroinoculated with the virus and the presence of the viral DNA was confirmed after 12 d by reverse transcriptase-polymerase chain reaction (RT-PCR) analysis after which the plants were monitored for the expression of symptoms. All of the 20 accessions of Vigna radiata and ten accessions of Vigna mungo were systemically infected with MYMV, and they all produced typical symptoms. On the other hand, the 24 accessions of Vigna umbellata were found to be resistant to both the isolates. For additional affirmation, three representative accessions of V. radiata and V. mungo and all the accessions of V. umbellata were agroinoculated, and quantitative RT-PCR was performed for the quantitative detection of the MYMV. The mRNA transcripts of MYMV were detected in V. radiata and V. mungo plants but not in the V. umbellata plants. Researching the molecular basis of the resistance in V. umbellate against MYMV might definitely be very constructive for developing resistant varieties of mungbean on a commercial scale. This genetic quality offering resistance to MYMV could also be incorporated into V. radiata/V. mungo by means of interspecific crosses.

Type
Research Article
Copyright
Copyright © NIAB 2014 

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References

Balaji, V, Vanitharani, R, Karthikeyan, AS, Anbalagan, S and Veluthambi, K (2004) Infectivity analysis of two variable DNA B components of Mungbean yellow mosaic virus-Vigna in Vigna mungo and Vigna radiata . Journal of Bioscience 29: 297308.CrossRefGoogle ScholarPubMed
Bharathi, A, Vijay Selvaraj, KS, Veerabadhiran, P and Subba Lakshmi, B (2006) Crossability barriers in mungbean (Vigna radiata L. Wilczek): with its wild relatives. Indian Journal of Crop Science 1: 120124.Google Scholar
Bi, H, Aileni, M and Zhang, P (2010) Evaluation of cassava varieties for cassava mosaic disease resistance jointly by agro-inoculation screening and molecular markers. African Journal of Plant Science 4: 330338.Google Scholar
Bisht, IS, Bhat, KV, Lakhanpaul, S, Latha, M, Biswas, BK and Singh, AK (2005) Diversity and genetic resources of wild Vigna species in India. Genetic Resources and Crop Evolution 52: 5368.CrossRefGoogle Scholar
Biswas, K and Varma, A (2001) Agroinoculation: a method of screening germplasm resistance to Mungbean yellow mosaic geminivirus . Indian Phytopathology 54: 240245.Google Scholar
Jacob, SS, Vanitharani, R, Karthikeyan, AS, Chinchore, Y, Thillaichidambaram, P and Veluthambi, K (2003) Mungbean yellow mosaic virus-Vi agroinfection by co delivery of DNA A and DNA B from one Agrobacterium strain. Plant Disease 87: 247251.CrossRefGoogle Scholar
Karthikeyan, A, Sudha, M, Pandiyan, M, Senthil, N, Shobhana, VG and Nagarajan, P (2011) Screening of MYMV resistant mungbean (Vigna radiata (L.) Wilczek) progenies through Agroinoculation. Internationl Journal of Plant Pathology 2: 115125.CrossRefGoogle Scholar
Karthikeyan, A, Sudha, M, Senthil, N, Pandiyan, M, Raveendran, M and Nagarajan, P (2012) Screening and identification of RAPD markers linked to MYMV resistance in mungbean (Vigna radiata (L.) Wilczek). Archives of Phytopathology and Plant Protection 45: 712716.CrossRefGoogle Scholar
Monika, KP, Singh, and Sareen, PK (2001) Cytogenetics studies in mungbean-rice bean hybrids. Journal Cytology Genetics 2: 1316.Google Scholar
Naimuddin, , Akram, M and Aditya, P (2011) First report of natural infection of Mungbean yellow mosaic India virus in two wild species of Vigna . New Disease Reports 23: 21.CrossRefGoogle Scholar
Nair, RM, Schafleitner, R, Kenyon, L, Srinivasan, R, Easdown, W, Ebertand, AW and Hanson, P (2013) Genetic improvement of mungbean. SABRAO Journal of Breeding and Genetics 44: 177190.Google Scholar
Pandiyan, M (2004) Characterization, evaluation, combining ability studies of greengram germplasm and interspecific hybridization in Vigna species. PhD Thesis, Department of TamilNadu Agricultural University..Google Scholar
Pandiyan, M, Ramamoorthi, N, Ganesh, SK, Jebaraj, S, Nagarajan, P and Balasubramanian, P (2008) Broadening the genetic base and introgression of MYMV resistance and yield improvement through unexplored genes from wild relatives in mungbean. Plant Mutation Reports 2: 3343.Google Scholar
Pandiyan, M, Senthil, N, Ramamoorthi, N, Muthiah, AR, Tomooka, N, Duncan, V and Jayaraj, T (2010) Interspecific hybridization of Vigna radiata ×  13 wild Vigna species for developing MYMV donar. Electronic Journal of Plant Breeding 1: 600610.Google Scholar
Shanmugasundaram, , Subramnayam, , Keatinge, JDH and Hughes, J (2010) The mungbean transformation: diversifying crops and defeating malnutrition. In: Spielman, DJ and Lorch, RP (eds) Proven Success in Agricultural Development – A Technical Compendium of Millions Fed. Washington, DC: International Food Policy Institute, pp. 381405.Google Scholar
Usharani, KS, Surendranath, B, Haq, QMR and Malathi, VG (2004) Yellow mosaic virus infecting soybean in northern India is distinct from the species infecting soybean in southern and western India. Current Science 86: 845850.Google Scholar
Vaghchhipawala, Z, Clemencia, M, Senthilkumar, M and Kirankumar, S (2011) Agroinoculation and agroinfiltration: simple tools for complex gene function analyses. Methods in Molecular Biology 678: 6576.CrossRefGoogle ScholarPubMed
Varma, A and Malathi, VG (2003) Emerging geminivirus problems: a serious threat to crop production. Annals of Applied Biology 142: 145164.CrossRefGoogle Scholar
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