Madura has at least 22 genotypes of local tobaccos (Nicotiana tabacum L.). This diversity could potentially produce new genotype of tobaccos with superior characters. However, information of the genetic diversity of Madura tobaccos is still limited. The aim of this study was to determine the genetic variation and relationship of 24 genotypes of Madura tobaccos with Random Amplified Polymorphic DNA (RAPD) analysis. In this research we were used 6 single primers for amplification: (OPA-18, OPB-12, OPB-14, OPC-1, OPC-8 and OPC-19) and 2 mixture primers ((OPB-12+OPC-8) and (OPC-1+OPC-19)). Genetic similarity and clustering was analyzed with Unweighted Pair Group Method Arithmetic (UPGMA) method with Numerical Taxonomy and Multivariate Analysis System (NTSYS) version 2.10 software. From this research we found that OPA18425, OPB12450, OPC8500, (OPC19+OPC1)550 and OPC8800 can be used as specific markers. Polymorphic bands percentage with mixture primers was relatively equal with single primers (<60%). The dendogram showed that Madura tobacco genotypes consist of 2 main clusters: cluster A (22 genotypes) and cluster B (2 genotypes: Bukabu Sa’ang and Prancak-95). Madura tobaccos had high genetic similarity between genotypes ranging from 0.80-1.00.

Nicotiana tabacum; RAPD; genetic variations

Amzeri, A., Badami, K., Daryono, B.S., Rachmawati, D. (2009) Pemanfaatan sumber daya genetik tembakau (Nicotiana tabacum L.) lokal Madura untuk pemuliaan dan pelestarian plasma nutfah. Laporan Hibah PEKERTI. LPPM Universitas Trunojoyo.

Balai Penelitian Tanaman Tembakau dan Serat. 2007. Akselerasi alih teknologi tembakau Madura rendah nikotin. Warta Penelitian dan Pengembangan Pertanian 29(3): 10–11.

Daryono, B.S., Amzeri, A., Badami. K. 2015. Kekerabatan tembakau madura (Nicotiana tabacum L.) berdasarkan karakter molekular. Agrovigor., 8(1), 73–78.

Ernawanto, D., Kartono, G., Suwarso, Moerdjiati. (2007) Tembakau Madura. Indonesia: Balai Pengkajian Teknologi Pertanian Jatim.

Hopkins, K.L., Hilton, A.C. 2001. Use of multiple primers in RAPD analysis of clonal organisms provides limited improvement in discrimination. BioTechniques, 30, 1262–1267.

Hu, J., van Eysden, J., Quiros, C.F. 1995. Generation of DNA based markers in spesific genome regions by two-primer RAPD reactions. Genome Res., 4, 346–351.

Liu, X.Z., Zhang, H. Y. 2008. Advance of molecular marker application in the tobacco research. Afr. J. Biotechnol., 7(25), 4827–4831.

Nei, M., Li, W H., 1979. Mathematical model for studying genetic variation in terms of restriction endonucleases. Proc. Natl. Acad. Sci. 76(10): 5269–5273.

Raju, K.S., Sheshumadhav, M., Chandrasekhararao, C., Murthy, T.G.K. 2009. Molecular diversity in genus Nicotiana as revealed by randomly amplified polymorphic DNA. Indian J. Biotechnol., 8(1), 61–66.

Sall, T., Lind-Hallden, C., Hallden, C. 2000. Primer mixtures in RAPD analysis. Hereditas, 132(2000), 203–208.

Sarala, K, Rao, R.V.S. 2008. Genetic diversity in Indian FCV and Burley tobacco cultivars. J. Genet., 87(2), 159–163.

Strelchenko, P.P., Gubareva, N.K, Kovalyova, O.N., Graner, A. (1996) Geographical and breeding trends within Eurasian cultivated barley germplasm revealed by molecular markers. In: Plant Genetic Resources: Characterization and Evaluation New Approaches to Improved Use of Plant Genetic Resources. Japan: National Institute of Agrobiological Resources Tsukuba.

Suardana, I.W, Artama, W.T., Asmara, W., Daryono, B.S. 2011. Studi epidemiologi agen zoonosis Escherichia coli O157:H7 melalui analisis random amplification of polymorphic DNA (RAPD). Jurnal Veteriner, 12(2), 142–151.

Wiriadinata, H,J., Mogea, P., Nasution, R.E., Rugayah, Sunarti, S. 1993. Jenis-jenis Tumbuhan Langka Indonesia. Proceeding Seminar Hasil Litbang SDH. Puslitbang Biologi LIPI: 58–67.

Yeh, F.C., Yang, R.C., Boyle, T.B.J., Ye, Z.H., Mao, J.C. (1999) POPGENE 1.32, The User-Friendly Shareware for Population Genetic Analysis. Molecular Biology and Biotechnology Center. University of Alberta Edmonton.