S0049-3848(14)00284-9

Original Article

Identification of Donors of Mungbean and Urdbean against Yellow Mosaic Disease

Year: 2022 | Month: March | Volume 15 | Issue 1

References (35)

1.Abhay, M., Sangita, S., Deo, P., Birendra, K. and Sanjeev, K. 2020.Molecular characterization of mungbean [Vigna radiata (L.) Wilczek] genotypes for resistance against Mungbean yellow mosaic virus (MYMV). Res. J. Biotech., 15(6): 123-134.

View at Google Scholar

2.Abrol, S. and Sharma, P. 2018. Screening of mungbean accessions against Mungbean yellow mosaic virus (MYMV) under sub-tropical irrigated conditions of Jammu region, India. Int. J. Curr. Microb. and Appl. Sci., 7(2): 42-50.

View at Google Scholar

3.Akhtar, J., Lal, H.C., Singh, P.K., Karmakar, S., Gautam, N. K. and Kumar, A. 2016. Identification of resistant sources of Vigna spp. against yellow mosaic disease. Virology and Mycology, 5(1): 153.

View at Google Scholar

4.Akhtar, K.P., Sarwar, G., Abbas, G., Asghar, M.J., Sarwar, N. and Shah, T.M. 2011. Screening of mungbean germplasm against Mungbean yellow mosaic India virus & its vector Bemisiatabaci. Crop Prot., 30: 1202-1209.

View at Google Scholar

5.Bashir, M., Ahmad, Z. and Ghafoor, A. 2005. Sources of genetic resistance in mungbean and blackgram against urdbean leaf crinkle virus (ULCV). Pakistan J. Bot., 37: 47–51.

View at Google Scholar

6.Bhanu, N.A., Singh, M.N. and Srivastava, K. 2017. Screening mungbean [Vigna radiata (L.) Wilczek] genotypes for Mungbean yellow mosaic virus resistance under natural condition. Adv. in Plants and Agric. Res., 7(6): 1-4.

View at Google Scholar

7.Chandra, S., Rajvanshi, N.K., Kumar, P., Tripathi, R.M. and Chauhan, M.P. 2019. Reaction of urdbean (Vigna mungo) genotypes against cercospora leaf spot (CLS). Int. J. Chem. Stud., 7(3): 439-440.

View at Google Scholar

8.Chauhan, Y.S., Douglas, C., Rachaputi, R.C.N., Agius, P., Martin, W. and King, K. 2010. Physiology of mungbean and development of the mungbean crop model. In: Proceedings of the 1st Australian Summer Grains Conference Australia, Gold Coast, QL. 21–24.

View at Google Scholar

9.Deepa, H., Govindappa, M.R., Kenganal, M., Kulkarni, S.A. and Biradar, S.A. 2017 a. Screening of greengram genotypes against Mungbean yellow mosaic virus diseases under field condition. Int. J Pure and Appl. Biosci., 5(2): 1049-1056.

View at Google Scholar

10.Deepa, H., Govindappa, M.R., Kulkarni, S.A., Kenganal, M. and Biradar, S.A. 2017 b. Molecular detection of yellow mosaic disease of greengram through polymerase chain reaction. Bulletin of Environ. Pharmacology and Life Sci., 6(1): 507-509.

View at Google Scholar

11.Dharajiya, D.T., Ravindrababu, Y. and Pagi, N.K. 2018. Screening of mungbean [Vigna radiata (L.) Wilczek] genotypes for resistance against Mungbean yellow mosaic virus (MYMV) under field condition. Int. J. Curr. Microb. & Appl. Sci., 7(5): 3472-3483.

View at Google Scholar

12.Gopi, P., Satyanarayana, A., Krishna, R.A. and Rao, S.K.R.S. 2016. Evaluation of blackgram germplasm for resistance against YMV. J. Plant Pathol. & Microbiol., 7(7): 368.

View at Google Scholar

13.Iqbal, U., Iqbal, S.K., Afzal, R., Jamal, A., Farooq, M.A. and Zahid, A. 2011. Screening of mungbean germplasm against Mungbean yellow mosaic virus (MYMV) under field conditions. Pakistan J. Phytopathology, 23(1): 48-51.

View at Google Scholar

14.Karthikeyan, A.S., Vanitharani, R., Balaji, V., Anuradha, S., Thillaichidambaram, P., Shivaprasad, P.V., Parameswari, C., Balamani, V., Saminathan, M. and Veluthambi, K. 2004.Analysis of an isolate of Mungbean yellow mosaic virus (MYMV) with a highly variable DNA B component. Archives of Virology, 149: 1643-1652.

View at Google Scholar

15.Karthikeyan, A., Shobhana, V. G., Sudha, M., Raveendran, M., Senthil, N.,Pandiyan, M. and Nagarajan, P. 2014. Mungbean yellow mosaic virus (MYMV): a threat to green gram (Vigna radiata) production in Asia. Int. J. Pest Manag., 60(4): 314-324.

View at Google Scholar

16.Khaliq, N., Koul, V., Shankar, U., Ganai, S.A., Sharma, S. and Norboo, T. 2017. Screening of mungbean (Vigna radiata (L.) Wilczek) varieties against whitefly (Bemisia tabaci Genn.) and Mungbean yellow mosaic virus (MYMV). Int. J. Curr. Microb. & Appl. Sci., 6(8): 129-132.

View at Google Scholar

17.Kumar, A. and Bal, R.S. 2012. Screening of urdbean germplasm against MYMV and cercospora leaf spot diseases. Trends in Biosci., 5(2): 127-128.

View at Google Scholar

18.Lodhi, M.A., Ye, G., Weeden, N.F. and Reisch, B.I. 1994. A simple & efficient method for DNA extraction from grapevine cultivars &Vitis species. Plant Molecular Biology Reporter, 12: 6-13.

View at Google Scholar

19.Mahalingam, A., Satya, V.K., Manivannan, N., Narayanan, L.S. and Sathya, P. 2018. Inheritance of mungbean yellow mosaic virus disease resistance in greengram [Vigna radiata (L.)Wilczek]. Int. J. Curr. Microb. and Appl. Sci., 7(1): 880-885.

View at Google Scholar

20.Mahalingam, A., Satya, V.K., Manivannan, N., Narayanan, L.S. and Sathya, P. 2018. Inheritance of mungbean yellow mosaic virus disease resistance in greengram [Vigna radiata (L.)Wilczek]. Int. J. Curr. Microb. and Appl. Sci., 7(1): 880-885.

View at Google Scholar

21.Maheshwari, R., Panigrahi, G. and Angappan, K. 2014. Molecular characterization of distinct YMV (Yellow mosaic virus) isolates affecting pulses in India with the aid of coat protein gene as a marker for identification. Molecular Biology Reports, 41(4): 2635-44.

View at Google Scholar

22.Malathi, V.G. and John, P. 2008b. Gemini viruses infecting legumes. In: Characterization, Diagnosis and Management of Plant Viruses, Eds.: G. P. Rao, P. Lava Kumar & R.J. Holguin-Pena. Stadium Press, Houston, pp. 97-123.

View at Google Scholar

23.Naimuddin, K. and Akram, M. 2010. Detection of mixed infection of begomoviruses in cowpea and their molecular characterization based on CP gene sequences. J of Food Legume, 23: 191-195.

View at Google Scholar

24.Nair, R.M., Pandey, A.K., War, A.R., Hanumantharao, B., Shwe, T., Alam, A., Pratap, A., Malik, S.R., Karimi, R., Mbeyagala, E.K., Douglas, C.A., Rane, J. and Schafleitner, R. 2019. Biotic and Abiotic Constraints in Mungbean Production—Progress in Genetic Improvement. Front. Plant Sci., 10: 1340.

View at Google Scholar

25.Panduranga, G.S., Vijayalakshmi, K., Reddy, L.K. and Rajashekar, H. 2011. Evaluation of mungbean germplasm for resistance for resistance against whitefly and mungbean yellow mosaic virus disease. Indian J. of Entomology, 73(3): 338- 342.

View at Google Scholar

26.Parihar, A.K., Kumar, A., Dixit, G.P. and Gupta, S. 2017. Seasonal effects on outbreak of yellow mosaic disease in released cultivars of mungbean (Vigna radiata) and urdbean (Vigna mungo). Indian J. Agric. Sci., 87(6): 734-8.

View at Google Scholar

27.Paul, P.C., Biswas, M.K., Mandal, D. and Pal, P. 2013. Studies on host resistance of mungbean against Mungbean yellow mosaic virus in the agro-ecological condition of lateritic zone of West Bengal. The Bioscan., 8(2): 583–587.

View at Google Scholar

28.Pratap, A., Gupta, S., Basu, S., Tomar, R., Dubey, S., Rathore, M. 2019a.Towards Development of Climate-Smart Mungbean. In: Challenges and Opportunities, in Genomic Designing of Climate Smart Pulse Crops. Ed. Kole, C. (New York: Springer Nature). doi: 10.1007/978-3-319-96932-9_5.

View at Google Scholar

29.Prema, G.U. and Rangaswamy, K.T. 2018. Molecular detection & characterization of coat protein gene of Mungbean yellow mosaic virus (MYMV) from Karnataka. Int. J. Agric. Sci., 10(3): 5118-5122.

View at Google Scholar

30.Sarkar, M., Sanhita, G. and Kundagrami, S. 2014. Genetic variability and character association of yield and yield components in mungbean [Vigna radiata (L.) wilczek]. J. Agroecology and Natural Resource Manag., 1(3): 161- 165.

View at Google Scholar

31.Shamim, M.Z. and Pandey, A. 2014. Identification of yellow mosaic virus (YMV) resistant black gram (Vigna mungo L.) genotypes for cultivation in Northern India. J. Agroecology and Natural Resource Manag., 1(2): 48-50.

View at Google Scholar

32.Singh, A.K., Verma, V.S., Singh, P., Rizvi, S.E.H. and Singh, B. 2008. Evaluation and screening of urdbean germplasm for yield and genetic resistance against whitefly and yellow mosaic virus under rainfed conditions of Jammu. Plant Diseases Res., 23(2): 68-72.

View at Google Scholar

33.Singh, S.K. and Singh, P.S. 2019.Evaluation of green gram genotypes against whitefly Bemisia tabaci (Gennadius). Indian J. Entomology, 81(3): 498-500.

View at Google Scholar

34.Suman, S., Sharama, V.K., Kumar, H. and Shahi, V.K. 2015. Screening of mungbean (Vigna radiata (L.) Wilczek) genotypes for resistance to Mungbean yellow mosaic virus (MYMV). Environ. and Ecolo., 33(2A): 855-859.

View at Google Scholar

35.Wheeler, B.E.J. 1969. An Introduction to Plant Diseases. John Wiley and Sons Limited, London, pp. 301.

View at Google Scholar

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