Date Received: Jan 08, 2019
Date Published: Feb 13, 2019
Views
Download
Section:
How to Cite:
Evaluation of Local Black Glutinous Rice Germplasm of Vietnam for Resistance to Bacterial Leaf Blight Disease
Keywords
Vietnamese local black glutinous rice, bacterial leaf blight disease (Xanthomonas oryzae pv. Oryzae), effective resistant genes (Xa4, xa5, Xa7)
Abstract
Most rice growing areas frequently encounter the bacterial leaf blight, Xanthomonas oryzae pv oryzae (Xoo). To prevent the disease, development of resistant varieties is considered to be the most economical and environmentally safe solution. In this study, three PCR-based markers, Npb181, RM122, and P3, were used for the identification of the genes Xa4, xa5, and Xa7, respectively, from 56 local black glutinous rice accessions of Vietnam. Phenotypic screening of the accessions for resistance to 10 Xoo strains of North Vietnam, along with IRBB4, IRBB5, and IRBB7 as resistant controls and IR24 as a susceptible control were carried out in the 2016 Autumn season. 19 accessions containing the resistant genes were found, of these, 6 accessions carried Xa4 gene, 6 accessions carried xa5 gene, and 11 accessions carried Xa7 gene. Three accessions carried two resistance genes, viz. Nep do (Xa4 and Xa7), Pau cam (xa5 and Xa7), and Pe lon cam (Xa4 and xa5). Accessions with xa5 and Xa7 alone or with a combination of two genes (Xa4 and xa5, Xa4 and Xa7, or xa5 and Xa7) were resistantto 8-9 Xoo strains (8-9R/0M/1-2S). Accessions containing Xa4 showed resistance to 5-6 strains of Xoo (5-6R/0M/4-5S). Xoo strain No1 (HUA01043) showed the lowest virulence, infecting only 14 accessions (42R/4M/14S). Strains No3 (HUA 0020131-2), No4 (HUA202361), No5 (HUA20212), and No8 (HUA 020083) showed highest virulence, and they each infected more than 40 accessions with 19R/0M/41S, 20R/0M/40S, 16R/4M/40S, and 20R/0M/40S, respectively. These strains can even infect some accessions containing effective resistant genes (Xa4 or Xa7).
References
Adhikari T. B., Cruz C., Zhang Q., Nelson R. J., Skinner D. Z., Mew T. W. and Leach J. E. (1995). Genetic diversity of Xanthomonas oryzae pv. oryzae in Asia. Applied and Environmental Microbiology. Vol 61 (3). pp. 966-971.
Blair M. W. and McCouch S. R. (1997). Microsatellite and sequence-tagged site markers diagnostic for the rice bacterial leaf blight resistance gene xa5. Theoretical and Applied Genetics. Vol 95 (1-2). pp.174-184.
Chen X., Shang J., Chen D., Lei C.., Zhai W., Liu G., Xu J., Ling Z., Cao G., Ma B., Wang Y., Zhao X., Li S. and Zhu L. (2006). A B-lectin receptor kinase gene conferring rice blast resistance. Plant Journal. Vol 46 (5). pp. 794-804. doi: 10.1111/j.1365-313X.2006.02739.x
Furuya N., Satoru Taura., Thuy B. T., Masaru M., Seint S. A. and Ton P. H. (2002). Isolation and preservation of Xanthomonas oryzae pv. oryzae from Vietnam in 2001-2002. Philippines: IRRI. pp. 207-217.
Furuya N., Satoru T., Takahiro G., Thuy B. T., Ton P. H., Kenichi T. and Yoshimura A. (2012). Diversity in virulence of Xanthomonas oryzae pv. oryzae from Northern Vietnam. Japan Agriculture Research Quarterly (JARQ). Vol 46 (4). pp. 329-338.
Gu K., Tian D., Qiu C. and Yin Z. (2009). Transcription activator-like type III effector avr Xa27. Molecular Plant Pathology. Vol 10. pp. 829-835. doi: 10.1111/j.1364-3703.2009.00567.x.
Iyer A. S. and McCouch S. R. (2004). The rice bacterial blight resistance gene xa5 encodes a novel form of disease resistance. Molecular Plant-Microbe Interaction. Vol 17 (12). pp. 1348-1354.
Khush G. S., Mackill D. J. and Sidhu G. S. (1989). Breeding rice for resistance to bacterial leaf blight. In: IRRI (Ed.). Bacterial blight of rice. Manila.
Taura S., Sugita Y. and Kawahara D. (2004). Gene distribution resistance to bacterial blight in Northern Vietnam rice varieties. Abstracts of the 1st International Conference on Bacterial Blight of rice. March 17-19, 2004, Tsukuba, Japan. pp. 42.
Thanh T., Ton P. H., Hai V. D., Luong N. T., Hien P. B., Nghia L. T., Trung D. M., Duong N. T., Trung K. H. and Khanh T. D. (2018). Detection of bacterial leaf blight resistance genes in indigenous glutinous rice landraces. Journal of Horticulture and Plant Research. Vol 2. pp. 1-9.
Ton P. H. and Thuy B. T. (2003). Pathogenicity of the Bacterial leaf blight strains from Northern Vietnam. The 2nd National Conference on Plant Pathology and Molecular Biology, Vietnam. Molecular Plant Pathology Society (VMPPS). pp. 78-86.
Ton P. H. and Thuy B. T. (2004). Distribution and pathogenicity of rice germplasm in northern Vietnam. Journal of Agriculture and Rural Development. Vol 6. pp. 832-835.
Ton P. H., Hai T. V., Bach N. D. and Hai N. T. L. (2005). Application of DNA marker for identifying resistant genes to bacterial leaf blight of rice. Bulletin of the Institute of Tropical Agriculture, Kyushu University. Vol 28 (1). pp. 15-24.
Zhang F., Zhuo D. L., Zhang F., Huang L. Y., Wang W. S., Xu J. L., Vera Cruz C., Li Z. K. and Zhou Y. L. (2014). Xa39, a novel dominant gene conferring broad-spectrum resistance to Xanthomonas oryzae pv oryzae in rice. Plant Pathology. Vol 64 (3). pp. 568-575.
Zheng J. S. and La B. (2003). PCR technique and its practical methods. Molecular Plant Breeding. Vol 1 (3). pp. 381-394.
Yoshimura S., Nelson R., Yoshimura A., Mew T. W. and Iwata N. (1992). RFLP mapping of the bacterial blight resistance genes Xa3 and Xa4. Rice Genetics Newsletter. Vol 9. pp. 136-138.
Wakimoto S. (1955). Studies on the multipulication of OP1 phage (Xanthomonas oryzae bacteriophage). 1. One-step growth experiment under various condition. Science Bulletin of Faculty of Agriculture, Kuyshu University. Vol 15. pp. 151-160 (in Japanese with English summary).