การตรวจสอบไวรัส Maize Chlorotic Mottle Virus, Maize Dwarf Mosaic Virus และ Sugarcane Mosaic Virus สาเหตุโรคแห้งตายในข้าวโพดหวาน
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Abstract
Abstract
The most common viruses infected maize in Thailand are Sugarcane mosaic virus (SCMV), Maize chlorotic mottle virus (MCMV), and Maize dwarf mosaic virus (MDMV), the causal agent of maize lethal necrosis disease. The aims of this study were detection of Sugarcane mosaic virus (SCMV), Maize chlorotic mottle virus (MCMV), and Maize dwarf mosaic virus (MDMV) in the main sweet corn plantation of Thailand by using the indirect ELISA technique. The one hundred and twenty four samples in 3 cultivars of sweet corn such as Hybrix 3, Insee 2 and Wan 54, which were collected from four regions and nine provinces in Thailand, were studied. Results were shown that samples from the central, western, northeastern, and northern regions were infected by both of SCMV and MDMV in the range of average optical density (OD405) 0.107-1.00 with 100 % infectivity. On the other hand, the samples from central and western regions were infected by MCMV in a range of OD405 0.346-1.197 with 31.45 % infectivity. Results from this study were demonstrated that the combination of SCMV and MCMV infection in sweet corn plantation in the central and western regions had more severe viral outbreaks than in the northeastern and northern regions. These results were used as the basic information, that critical epidemiology of these viruses to sweet corn planning, in order to prevent this disease and insect vector or zoning to avoid viral infections to the other sweet corn plantations in Thailand.
Keywords: Sugarcane mosaic virus (SCMV); Maize chlorotic mottle virus (MCMV); Maize dwarf mosaic virus (MDMV); ELISA; detection
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References
[2] Brewbaker, N.S.J. and Hu, J., 2011, Maize chlorotic mottle virus, Plant Dis. 79: 1-6.
[3] Nault, L.R., Styer, W.E., Coffey, M.E., Gordon, D.T., Negi, L.S. and Niblett, C.L., 1978, Transmission of Maize chlorotic mottle virus by Chrysomelid beetles, Phytopathology 68: 1071-1074.
[4] Wangai, A.W., Redinbaugh, M.G., Kinyua, Z.M., Miano, D.W., Leley, P.K., Kasina, M., Mahuku, G., Scheets, K. and Jeffers, D., 2012, First report of maize chlorotic mottle virus and maize lethal necrosis disease in Kenya, Plant Dis. 96: 1582-1583.
[5] Adams, I.P., Maino, D.W., Kinyua, Z.M., Wangai, A., Kimani, E., Phiri, N., Reeder, R., Harju, V., Glover, R., Hany, U., Souza-Richards, R., DebNath, P., Nixon, T., Fox, A., Barnes, A., Smith, J., Skelton, A., Thwaites, R., Mumford, R. and Boonham, N., 2013, Use of next-generation sequencing for the identification and characterization of maize chlorotic mottle virus and sugarcane mosaic virus causing maize lethal necrosis disease in Kenya, Plant Pathol. 62: 741-749.
[6] Xie, L., Zhang, Q., Wang, C., Meng, J. Hong. and Zhou, X., 2011, Characterization of maize chlorotic mottle virus associated with maize lethal necrosis disease in China, J. Phytopath. 159: 191-193.
[7] Doupnik, B.Jr., 1979, Status of corn lethal necrosis (virus disease in the United States)-1979 update, Proc. Annu. Corn Sorghum Res. Conf. 34: 16-24.
[8] Neblett, C.L. and Claflin, L.E., 1978, Corn lethal necrosis-A new virus disease of corn in Kansas, Plant Dis. Rept. 62: 15-19.
[9] Uyemoto, J.K., Bockelman, D.L. and Claflin, L.E., 1980, Severe outbreak of corn lethal necrosis disease in Kansas, Plant Dis. 64: 99-100.
[10] Zhang, J.L., Li, H.Y. and Liang, H., 2011, Quarantine pest of maize chlorotic mottle virus was intercepted for the first time from imported maize seeds mailed from Germany in Heilongjiang port, Plant Quarantine 25: 85 p.
[11] Shen, J.G., Zhen, L., Wang, N.W., Yu, Z., Li, M., Lian, D.F. and Lin, W.Y., 2011, Maize chlorotic mottle virus and maize dwarf mosaic virus were intercepted for the first time in Fujian port, Plant Quarantine 25: 95 p.
[12] พิสสวรรณ เจียมสมบัติ, สุดฤดี ประเทืองวงศ์, วิบูลย์ จงรัตนเมธีกุล, สุจินต์ ภัทรภูวดล และประชุม จุฑาวรรธนะ, 2550, การจัดการโรคไวรัสใบด่างลาย (SCMV) ไวรัสใบด่างจุดประเหลือง (MCMV) โรคเหี่ยวและโรคลำต้นเน่าแบคทีเรียของข้าวโพดหวานและแมลงพาหะที่สำคัญ, ภาควิชาโรคพืช คณะเกษตร กำแพงแสน มหาวิทยาลัยเกษตรศาสตร์ วิทยาเขตกำแพงแสน, นครปฐม, 100 น.
[13] เอื้อมขวัญ จันเต็ม, คนึงนิตย์ เหรียญวรากร, สนธิชัย จันทร์เปรม และสุภาพร กลิ่นคง, 2547, การเปรียบเทียบลำดับนิวคลีโอไทด์ของโปรตีนห่อหุ้มอนุภาคไวรัสใบด่างแคระจากข้าวโพดในประเทศไทย, ว.วิทยาศาสตร์เกษตร 35: 131-138.
[14] Clark, M.F. and Adams, A.N., 1977, Characteristics of the microplate method of enzyme-linked immunosorbent assay for the detection of plant viruses, J. Gen. Virol. 34: 475-483.
[15] วาสนา รุ่งสว่าง, คนึงนิตย์ เหรียญวรากร, สุภาพร กลิ่นคง และสุจินต์ ภัทรภูวดล, 2558, การศึกษาโรคแห้งตายในข้าวโพดหวาน, ว.วิชาการเกษตร. 33(1): 42-58.
[16] Wu, J.X., Wang, Q., Liu, H., Qian, Y., Xie, Y. and Zhou, X.P., 2013, Monoclonal antibody-based serological methods for maize chlorotic mottle virus detection in China, J. Zhejiang Univ. Sci. B Jul. 14: 555-562.
[17] Scheets, K., 1998, Maize chlorotic mottle machlomovirus and wheat streak mosaic rymovirus concentrations increase in the synergistic disease corn lethal necrosis, Virology 242: 28-38.
[18] Foster, D.J., 1984, An assessment of methods for quantification of genetic resistance to corn lethal necrosis (CLN) in maize (Zea mays L.), University Microfilms International, The University of Nebraska, Lincoin.
[19] Fentahum, M., Feyissa, T., Abraham, A. and Kwak, Hae Ryun., 2016, Detection and characterization of maize chlorotic mottle virus and sugarcane mosaic virus associated with maize lethal necrosis disease in Ethiopia: an emerging threat to maize production in the region, Eur. J. Plant Pathol. DOI 10.1007/s10658-017-1229-2.