Morphological and Molecular Characterization of Rhizoctonia solani Isolates from Two Different Rice Varieties
Aisyah Surya Bintang(1*), Arif Wibowo(2), Achmadi Priyatmojo(3), Siti Subandiyah(4)
(1) Department of Crop Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora 1, Bulaksumur, Sleman, Yogyakarta 55281
(2) Department of Crop Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora 1, Bulaksumur, Sleman, Yogyakarta 55281
(3) Department of Crop Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora 1, Bulaksumur, Sleman, Yogyakarta 55281
(4) Department of Crop Protection, Faculty of Agriculture, Universitas Gadjah Mada Jln. Flora 1, Bulaksumur, Sleman, Yogyakarta 55281
(*) Corresponding Author
Abstract
Six isolates of Rhizoctonia solani, i.e. two isolates collected from infected rice plants and four isolates from laboratory collection were studied by using morphological characters and molecular analysis. Un-weighted pair group method with arithmetic mean dendogram constructed based on cluster analysis showed that these isolates were grouped into three clusters at the 0.77 similarity coefficient. Cluster I consisted of BA, BNJ, and NBR isolates with 100% similarity and indicated that those were from AG 1 IA sub group, cluster II consisted of BND, and cluster III consisted of SL1 and SL2. Mycelium was very light brown or whitish with few and moderate sclerotia except SL1 and SL2. Molecular characterization showed that BA, BNJ, and NBR were amplified at 140 bp using Rs1F/Rs2R specific primer for R. solani AG1 IA. All isolates were amplified between 350−400 bp using Rhsp1 primer, meanwhile SL1 and SL2 were not amplified using AG2sp and AG22sp2 primers. Based on Maximum Likelihood tree analysis showed that SL1 and SL2 had high similarity based on ITS sequence data.
Intisari
Enam isolat Rhizoctonia solani yang berasal dari tanaman padi bergejala dan koleksi laboratorium diuji secara morfologi dan molekuler. Analisis UPGMA dengan koefisien persamaan 0,77 menunjukkan bahwa enam isolat tersebut terbagi atas tiga klaster. Klaster I terdiri atas isolat BA, BNJ, dan NBR dengan kesamaan 100% dan menunjukkan bahwa isolat tersebut berasal dari subgrup AG 1 IA , klaster II yakni isolat BND, dan klaster III terdiri atas isolat SL1 dan SL2. Miselium berwarna putih hingga cokelat muda dengan jumlah sklerotia sedang, kecuali isolat SL1 dan SL2. Uji keragaman secara molekuler menunjukkan bahwa isolat BA, BNJ, dan NBR teramplifikasi pada kisaran 140 bp dengan menggunakan primer Rs1F/Rs2R yang merupakan primer spesifik dari R. solani AG1 IA. Seluruh isolat teramplifikasi pada kisaran 350−400 bp dengan menggunakan primer Rhsp1, sedangkan isolat SL1 dan SL2 keduanya tidak teramplifikasi oleh primer AG2sp dan AG22sp2. Analisis Maximum Likelihood tree berdasar data sekuen ITS menunjukkan bahwa isolat SL1 dan SL2 memiliki tingkat kesamaan yang tinggi.
Keywords
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Aye, S.S & M. Matsumoto. 2012. Characterization of Antagonistic Soil Microbes against Rhizoctonia spp. and Sclerotium hydrophilum. Archives of Phytopathology and Plant Protection 20: 2465−2473.
Bonman, J.M. 1992. Durable Resistance to Rice Blast Disease: Environmental Influences. Euphytica 63: 115−123.
Carling, D.E., R.H. Leiner, & K.M. Kebler. 1986. Characterisation of Rhizoctonia solani and Binucleate Rhizoctonia-like Fungi Collected from Alaskan Soils with Varied Crop Histories. Canadian Journal of Plant Pathology 8: 305−310.
Gonzalez-Vera, A.D., J. Bernardes-de-Assis, M. Zala, B.A. McDonald, F. Correa-Victoria, J. Graterol-Matute, & P.C. Ceresini. 2010. Divergence between Sympatric Rice- and Maize-infecting Populations of Rhizoctonia solani AG 1 IA from Latin America. American Phytopathological Society 100: 172−182.
Jones, R.K. & S.B. Belmar. 1989. Characterization and Pathogenicity of Rhizoctonia spp. Isolated from Rice, Soybean, and Other Crops Grown in Rotation with Rice in Texas. Plant Disease 73: 1004−1010.
Lehtonen, M.J. 2009. Rhizoctonia solani as a Potato Pathogen Variation Isolates in Finland and Host Response. Thesis. University of Helsinki, Helsinki. 18 p.
Lopez-Olmos, K., S. Delgado-Hernandez, & N. Perez-Mayek. 2005. AFLP Fingerprinting for Identification of Anastomosis Groups of Rhizoctonia solani Isolates from Common Bean (Phaseolus vulgaris L.) in Mexico. Revista Mexicana de Fitopatologia 23: 147−151.
Lübeck, M. 2004. Molecular Characterization of Rhizoctonia solani. Applied Mycology and Biotechnology 4: 205−224.
Menzies, J.D. 1970. Survival of Microbial Plant Pathogens in Soil. Botany 29: 79−122.
Moni, Z.R., Ali, M. Salam, M.A. Rahman, M.R. Bhuiyan, M.S. Mian, K.M. Ifterkharuddaula, M.A. Latif, & M.A.I. Khan. 2016. Morphological and Genetic Variability among Rhizoctonia solani Isolates Causing Sheath Blight Disease of Rice. Rice Science 23: 42−50.
Nadarajah, K., N.S. Omar, M.M. Rosli, & S.T. Ong. 2014. Molecular Characterization and Screening for Sheath Blight Resistance Using Malaysian Isolates of Rhizoctonia solani. BioMed Research International 2014: 1−18.
Nuryanto, B. 2011. Varietas, Kompos, dan Cara Pengairan sebagai Komponen Pengendali Penyakit Hawar Upih. Disertasi Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta. 113 p.
Okubara, P.A., M.B. Dickman, & A.E. Blechi. 2014. Molecular and Genetic Aspects of Controlling the Soilborne Necrotrophic Pathogens Rhizoctonia and Phytium. Plant Science 228: 61−70.
Salazar, O., M.C. Julian, & V. Rubio. 2000. Primers Based on Specific Rdna-ITS Sequences for PCR Detection Rhizoctonia solani, R. solani AG 2 Subgroups and Ecological Types, Binucleate Rhizoctonia. Mycology Research 104: 281−285.
Sayler, R.J. & Y. Yang. 2007. Detection and Quantification of Rhizoctonia solani AG1-IA, the Rice Sheath Blight Pathogen, in Rice Using Real-Time PCR. Plant Disease 12: 1663−1668.
Sneh, B., L. Burpee, & A. Ogoshi. 1991. Identification of Rhizoctonia Species. The Journal of Agricultural Science 120: 273−278.
Suparyono & Sudir. 1999. The Role of Sclerotia and Other Propagules of Rhizoctonia solani as the Primary Inoculums of Rice Sheath Blight. Entomology and Plant Pathology Journal 1: 7−12.
Toda, T., M. Hyakumachi, & D.K. Arora. 1999. Genetic Relatedness among and within Different Rhizoctonia solani Anastomosis Groups as Assessed by RAPD, ERIC and REP-PCR. Microbiological Research 154: 247−258.
Tsror, L.J. 2010. Biology, Epidemiology and Mana-gement of Rhizoctonia solani on Potato. Journal of Phytopathology 158: 649−658.
Zhang, C.Q., Y.H. Liu, X.Y. Ma, Z. Feng, & Z.H. Ma. 2009. Characterization of Sensitivity of Rhizoctonia solani, Causing Rice Sheath Blight to Mepronil and Boscalid. Crop Protection 28: 381−386.
Zheng, A., R. Lin, D. Zhang, P. Qin, L. Xu, L. Ding, Y. Wang, Y. Chen, Y. Liu, Z. Sun, H. Feng, X. Liang, R. Fu, C. Tang, Q. Li, J. Zhang, Q. Deng, S. Li, S. Wang, J. Zhu, L. Wang, H. Liu, & P. Li. 2013. The Evolution and Pathogenic Mechanisms of the Rice Sheath Blight Pathogen. Nature Communication 4: 1−10.
DOI: https://doi.org/10.22146/jpti.25469
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