Original Article
Molecular Characterization among Susceptible and Resistant Ridge Gourd Cultivars to Root-Knot Nematode, Meloidogyne incognita through ISSR Markers
Year: 2020 | Month: June | Volume 13 | Issue 2
1.Chang, H.B., Long, B., Park, Y., Jin Ma and Woojin, A. 2003. Assessment of genetic relationship among cucurbitaceae cultivars revealed by RAPD marker. Journal of Life Science, 13(5): 590-595.
View at Google Scholar2.De, P., Parab, M. and Singh, S. 2015. Article; agriculture and environmental biotechnology Intergenus variation analysis in few members of Cucurbitaceae based on ISSR markers. Biotechnology and Biotechnological Equipmen, 29(5): 882-886.
View at Google Scholar3.Hampl, V., Pavlicek A. and Flegr, J. 2001. Construction and bootstrap analysis of DNA fingerprinting based phylogenetic trees with the freeware program FreeTree: application to trichomonad parasites. International Journal of Systematic and Evolutionary Microbiology, 51: 731-735.
View at Google Scholar4.Huang, C.H., Wang, C.J. and Chyuan, J.H. 2010. Analysis of the genetic diversity and variety identifi cation of bitter gourd (Momordica charantia L.) by ISSR marker. Hualien District Agricultural Improvement Station, Bulletin, 28: 21-33.
View at Google Scholar5.Latha, K. 2012. Genetic diversity in 6 local cucumber varieties (Cucumis Satives) in karnataka market by RAPD-PCR technique. International Journal of Advanced Biological Research, 2(1): 39-45.
View at Google Scholar6.Page, R.D. 1996.Tree View: an application to display phylogenetic trees on personal computers. Comput. Appl. Biosci., 12: 357-358.
View at Google Scholar7.Pavalice, A., Hrda, S. and Flegr, J. 1999. Free Tree-freeware program for construction of phylogenetic trees on the basis of distance data and bootstrap/jackknife analysis of the tree robustness, Application in the RAPD analysis of genus Frenkelia. Folia Biologica , 45: 97-99.
View at Google Scholar8.Ravi R. Rathod, Mehta, D.R., Gajera, H.P. and Delvadiya, N.A. 2015. Molecular characterization of ridge gourd (Luffa acutangula L.) and sponge gourd (Luffa cylindrica l.) genotypes through PCR based molecular markers. International Journal of Agriculture, Environment and Biotechnology, 8(3): 521-530.
View at Google Scholar9.Resmi, J. and Sreelathakumary, I. 2011. RAPD markers for genetic variability studies in ashgourd [Benincasa hispida (Thunb.) Cogn.]. Journal of Agricultural Technology, 7(4): 1097-110.
View at Google Scholar10.Rogers, S.O. and Bendich, A.J. 1994. Extraction of total cellular DNA from plants, algae and fungi; In: Gelvin, S.B. and Schilperoort, R.A. (eds.). Plant Molecular Biology manual, MA Kluwer Academic Publishers, Boston, pp. 1-8.
View at Google Scholar11.Sikadar, B., Bhaacharya, M., Mukherjee, A., Banerjee, A., Ghosh, E., Ghosh, B. and Roy, S.C. 2010. Genetic diversity in important members of Cucurabitaceae using isozyme, RAPD and ISSR markers. Biologia Plantarum, 54(1): 135- 140.
View at Google Scholar12.Smith, N.D. and Devey, M.E. 1994. Occurrence and inheritance of microsatellites in Pinus radiata. Genomics, 37: 977-983.
View at Google Scholar13.Song, S.W., Li, Z., Liu, H.C., Sun, G.W. and Chen, R.Y. 2010. RAPD analysis of genetic diversity of wax gourd and chieh-qua germplasm. China Vegetables, 22: 47-53.
View at Google Scholar14.Vosman, M.I., Uzunova, M.I. and Ecke, W. 1992. Abundance, polymorphism and genetic mapping of microsatellites in Allium. Plant Breeding, 45: 156-167.
View at Google Scholar15.Yildiz, M., Akgul, N. and Sensoy, S. 2014. Morphological and molecular characterization of turkish landraces of Cucumis melo L. Notulae Botanicae Horti Agrobotanici, 42(1): 51-58.
View at Google Scholar