1. Combining multiplex PCR and high-resolution melting for the detection and discrimination of arthropod transmitted viruses of cereals.
- Author
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Rydzak, Patrick, Ochoa Corona, Francisco M., Whitfield, Anna E., and Wayadande, Astri C.
- Subjects
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BARLEY yellow dwarf viruses , *MOSAIC viruses , *PLANT viruses , *REVERSE transcriptase - Abstract
• Developed multiplex PCR assay to detect three plant viruses of cereal crops. • Accomplished species discrimination using high resolution melting on PCR product. • Combined multiplex PCR with high resolution melting to increase assay specificity. The Great Plains of the United States is a region comprised of approximately 45 million hectares of grasslands where several economically important cereal crops are grown. Arthropod-transmitted, cereal-infecting viruses vary in incidence from year-to-year and are often difficult to detect in large acreages. To facilitate the detection of economically important viruses of cereals that often exist in co-infections, a multiplex reverse transcriptase PCR (RT-PCR) platform assay was developed. This method can be used in combination with high resolution melting (HRM) to detect and allow for discrimination between three arthropod-transmitted plant viruses; Wheat streak mosaic virus (WSMV), Maize mosaic virus (MMV) and Barley yellow dwarf virus (BYDV). Multiplex PCR in combination with HRM allowed for successful detection of WSMV, MMV, and BYDV, as well as discrimination between three BYDV species, BYDV-PAS, BYDV-PAV and BYDV-MAV. All primer pairs amplified products of the predicted size. The BYDV-RT-PCR primers amplified products of identical length for all three species of BYDV. HRM was then used to discriminate between these products by determining significant differences between the melting rates for each (p < 0.05). This study demonstrates the flexibility of combining multiplex PCR with HRM to increase the specificity of plant virus diagnostics based on the needs of the diagnostician performing the assay. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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