Authors: M. Vivodík, Ž. Balážová, Z. Gálová

Abstract:

The aim of this work was to detect genetic variability among the set of 40 castor genotypes using 8 RAPD markers. Amplification of genomic DNA of 40 genotypes, using RAPD analysis, yielded in 66 fragments, with an average of 8.25 polymorphic fragments per primer. Number of amplified fragments ranged from 3 to 13, with the size of amplicons ranging from 100 to 1200 bp. Values of the polymorphic information content (PIC) value ranged from 0.556 to 0.895 with an average of 0.784 and diversity index (DI) value ranged from 0.621 to 0.896 with an average of 0.798. The dendrogram based on hierarchical cluster analysis using UPGMA algorithm was prepared and analyzed genotypes were grouped into two main clusters and only two genotypes could not be distinguished. Knowledge on the genetic diversity of castor can be used for future breeding programs for increased oil production for industrial uses.

Keywords: Dendrogram, polymorphism, RAPD technique, Ricinus communis L.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1093588

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2580

References:

[1] O. Y. Sarıbıyık, M. Özcanlı, H. Serin, S. Serin, K. Aydın, "Biodiesel Production from Ricinus communis Oil and Its Blends with Soybean Biodiesel,” Strojniškivestnik - Journal of Mechanical Engineering, vol. 56, no.12, pp. 811-816, 2010.
[2] D. S.Ogunniyi, "Castor oil: a vital industrial raw material,” Bioresour. Technol., vol. 97, pp. 1086–1091,2006.
[3] H. J. Caupin, "Products from castor oil: past, present and future,” in: Gunstone, F.D., Padley, F.B. (Eds.), Lipid Technologies and Applications. Marcel Dekker, New York, 1997, pp. 787–795.
[4] D. L.Auld, M. D. Zanotto, T. A. McKeon, J. B. Morris, "Castor,” in: Vollmann, J.Rajcan, I. (Eds.), Oil Crops, Handbook of Plant Breeding, vol.4, pp. 317–332,2009.
[5] J. D. Bilbro, "Castor: an old crop with new potential” Southwest Farm Press Newslett. (http://southwestfarmpress.com),2007.
[6] M.Santalla, J. B. Power, M. R. Davey, "Genetic diversity in mungbean germplasm revealed by RAPD markers,” Plant Breed., vol. 117, pp. 473–478,1998.
[7] E.J.Essilman, D.J. Crawford, S.Brauner, T.F. Stuessy, G. J. Anderson, O. M. Silva, "RAPD marker diversity within and divergence among species of Dendroseris (Asteraceae: Lactuceae),”Am. J. Bot., vol. 4, pp. 591–596,1997.
[8] P.S. Soltis, D.E. Soltis, T. L. Tucker, A.Lang, "Allozyme variability is absent in the narrow endemic Bensoniellaoregona (Saifragacear),” Conserv. Biol., vol. 6, pp. 131–134,1992.
[9] T. K.Lowrey, D. J. Crawford, "Allozyme divergence and evolution in Tertramolopium (Compositae: Astereae) on the Hawaiian Islands,” Syst. Bot., vol. 10, pp. 64–72, 1985.
[10] A.M.Crawford, K.G.Dodds, A.J.Ede, "An autosomal genetic linkage map of the sheep genome,” Genetics, vol. 140,pp. 703–724.1995.
[11] P.Lesica, R.F.Leary, F.R. Allendort, D.E. Bilderbecl, "Lack of genetic diversity within and among populations of an endangered plant, Hawellia aquatilis,” Conserv. Biol., vol. 2,pp. 275–282,1998.
[12] J.Welsh, M. McClelland, "Fingerprinting genomes using PCR with arbitrary primers,” Nucleic Acids Res., vol. 18, pp. 7213–7218,1990.
[13] C.Gwanama, M. T.Labuschagne, A.M. Botha, "Analysis of genetic variation in Cucurbitamoschata by random amplified polymorphic DNA (RAPD) markers,” Euphytica, vol. 113, pp. 19–24,2000.
[14] O.J.Francisco, D.J.Crawford, A. Santos-Guerra, J.A. Cravalho, "Isozyme differentiation in the endemic genus Argyranthemum (Asteraceae, Anthemideae) in the Macaronesian islands,”Plant Syst. Evol., vol. 202, pp. 137–152,1996.
[15] J.Kapteyn, J.E. Simon, "The use of RAPDs for assessment of identity, diversity and quality of Echinacea," in: Janick, J., Whipkey, A. (Eds.), Trends in New Crops and New Uses. ASHS Press, Alexandria, VA, 2002, pp. 509–513.
[16] B.B. Gajera, N. Kumar, A. S. Singh, B.S. Punvar, "Assessment of genetic diversityin castor (Ricinuscommunis L.) using RAPD and ISSR markers,” Ind. Crops Prod.,” vol. 32, pp. 491–498,2010.
[17] M. Bežo, A.Candráková, V. Štefúnová, J.Žiarovská, K.Ražná, M. Bežo, "Identification of flax germplasm collection duplicates using randomly amplified polymorphic DNA markers (RAPD),” Actafytotechnicaetzootechnica, vol. 8, no. 3, pp. 62—66, 2005.
[18] A.Gonzalez, A.Coulson, R.Brettell, "Development of DNA markers (ISSRs) inmango,” ActaHortic., vol. 575, pp. 139–143,2002.
[19] J. Žiarovská, K. Ražná, M. Labajová, "Using of Inter Microsatellite Polymorphism to evaluate gamma-irradiated Amaranth mutants,” Emir. J. Food Agric., vol. 25, no. 9, pp. 673-681, 2013.
[20] G. Allan, A. Williams, P. D. Rabinowicz, A. P. Chan, J. Ravel, P. Keim, "Worldwide genotyping of castor bean germplasm (Ricinus communis L.) using AFLPs and SSRs,” Genet. Resour. Crop. Evol., vol. 55, pp. 365–378,2008.
[21] B. S. Weir, „Genetic data analysis," Sinauer Associated, Sunderland, Mass,1990.
[22] D. Paetkau, W. Calvert, I. Stirling, C. Strobeck, "Microsatellite analysis of population structure in Canadian polar bears," Mol. Ecol., vol. 4, pp. 347-354,1995.
[23] J. L. Weber, "Informativeveness of human (dC-dA)n x (dG-dT)n polymorphism,” Genomics, vol. 7, pp. 524-530, 1990.
[24] F. J. Li, C.L. Wang, D. He, Z. Q. Liu, M. H. Chen, Y. R. Wang, F. J. Li, Z. H. Yang, G. Chen, "Evaluation of genetic diversity in Castor (Ricinus communis L.) using RAPD markers,” Advanced materials research., vol. 343-344, pp. 981-987, 2012.
[25] B.J.Parsons, H. J. Newbury, M.T. Jackson, B.V. Ford-Lloyd, "Contrasting genetic diversity relationships are revealed in rice (Oryza sativa L.) using different marker types,” Mol. Breed., vol. 3, pp. 115–125,1997.
[26] E.J.Esselman, J.Q. Li, D.Crawford, J.L. Winduss, A.D. Wolfe, "Clonal diversity in the rare Calamagrostisporteri ssp. Insperata (Poaceae): comparative results for allozymes and random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers,”Mol. Ecol., vol. 8,pp. 443–451,1999.
[27] A. Li, S.Ge, "Genetic variation and clonal diversity of Psammoc hloavillosa (Poaceae) detected by ISSR markers,” Ann. Bot., vol. 87, pp. 585–590,2001.
[28] K. Bachmann, "Nuclear DNA markers in plant biosystematics research,” Opera. Bot., vol. 132, pp. 137–148,1997.
[29] U. Landergott, R. Holderegger, G.Kozlowski, J. J.Schneller, "Historical bottlenecks decrease genetic diversity in natural populations of Dryopteris cristata,” Heredity, vol. 87,pp. 344–355,2001.
[30] G. A.Penner, "RAPD analysis of plant genomes,” in: Jauhar, P.P. (Ed.), Methods of Genome Analysis in Plants. CRC, Boca Raton, 1996, pp. 251–268.