Erschienen in:
26.11.2018 | Original Article
Development and comparison of real-time and conventional PCR tools targeting β-tubulin gene for detection of Nosema infection in silkworms
verfasst von:
Vijaya Gowri Esvaran, Aarthi Mohanasundaram, Shruthi Mahadeva, Tania Gupta, Kangayam M. Ponnuvel
Erschienen in:
Journal of Parasitic Diseases
|
Ausgabe 1/2019
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Abstract
Microsporidiosis (Pebrine) caused by the microsporidian parasite is one of the important devastating disease which affect the silk production leading to an unprofitable harvest. Till date ribosomal RNA (rRNA) gene was used as a target for detection of microsporidian species. In this study, we describe conventional and SYBR green based real-time PCR techniques alternatively targeting β-tubulin gene for quantitative detection of microsporidia infecting both the mulberry and non-mulberry silkworms. The modified DNA extraction method followed in our study was found to be easy, economical and could be used for both conventional and real time PCR as template. The real time qPCR revealed the expression of β-tubulin gene in different infected tissues of the silkworm Bombyx mori. The sensitivity of the SYBR green based real time PCR was found to be 100 times more than the conventional PCR and PCR was found more sensitive than the microscopic examination. The developed method did not produce any false positive results with the other silkworm pathogens and healthy silkworm. The data suggest that both the developed PCR methods targeting β-tubulin gene could be used effectively in quarantine process at seed centres for early detection of microsporidian infection in silkworms.