Results 71 to 80 of about 612 (105)
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Pebrine monitoring methods in sericulture
Methods in Microbiology, 2021Silkworm Bombyx mori, a monophagous lepidopteran insect is of great economic importance for the production of the natural fibre, silk. It is vulnerable to a diverse array of microorganisms resulting in crop losses to the farming fraternity practicing ...
Kamidi Rahul +2 more
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Molecular approaches for detection of pebrine disease in sericulture
Methods in Microbiology, 2021Nosema bombycis is an obligate intracellular parasite infecting Bombyx mori to cause pebrine disease. The disease is transmitted transovarially and spreads faster in silkworm seed multiplication farms.
Nalavadi Chandrakanth +4 more
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Parasitology Research, 2022
Pebrine disease is caused by microporidia (Nosema bombycis) and is destructive to sericulture production. A carbendazim-based drug FangWeiLing (FWL) has a significant control effect on the disease, which is a successful example of drug treatment of microsporidia. In this study, the therapeutic effect and critical action time of FWL were investigated by
Dongxu Xing +7 more
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Pebrine disease is caused by microporidia (Nosema bombycis) and is destructive to sericulture production. A carbendazim-based drug FangWeiLing (FWL) has a significant control effect on the disease, which is a successful example of drug treatment of microsporidia. In this study, the therapeutic effect and critical action time of FWL were investigated by
Dongxu Xing +7 more
openaire +3 more sources
Pebrine-A Silent Threat to Indian Sericulture
UTTAR PRADESH JOURNAL OF ZOOLOGYIndian culture is deeply rooted in sericulture, with different regions having a track record for supporting distinct populations of silkworms. For example, the North-Eastern region of the country is home to a diverse range of Muga (Antheraea assamensis Helfer), Eri (Samia ricini Donovan), and Oak Tasar (Antheraea proyleiJolly) silkworms.
Hussain, Md. Akib +4 more
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Strategies for diagnosing Nosema bombycis (Microsporidia: Nosematidae); the agent of pebrine disease
Molecular and Biochemical ParasitologyPebrine disease, caused by Nosema bombycis (N. bombycis), is the most important pathogen known to the silk industry. Historical evidence from several countries shows that the outbreaks of pebrine disease have largely caused the decline of the sericulture industry.
Masoumeh, Bagheri +2 more
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A new method of pebrine inspection of silkworm egg using multiprimer PCR
Journal of Invertebrate Pathology, 2003Using a mixture of several PCR primers, we evaluated whether multiprimer PCR is practically useful for the early and simultaneous detection of several kinds of microsporidia that cause silkworm pebrine. When genomic DNA extracted from silkworm eggs infected with Nosema bombycis was used as the DNA template, the specific DNA sequences were amplified by ...
Yoshinori, Hatakeyama, Shoji, Hayasaka
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Targeting essential genes of Nosema for the diagnosis of pebrine disease in silkworms.
Annals of parasitology, 2020Pebrine is one of the devastating diseases mostly caused by notorious Nosema - a microsporidian infecting silkworms. Identification of novel genes associated with the pathogen plays a key role in developing a reliable diagnostic tool for the detection of disease.
Vijayagowri, Esvaran +5 more
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The Clarion- International Multidisciplinary Journal, 2017
The Eri silkworm of the genus Samia is infected by protozoan disease pebrine caused by microsporidian Nosema species. The disease is transmitted to the next generation either through the eggs or consumption of contaminated leaves and it hinder eri seed production.
M. D. Senapati, A. K. Hazarika
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The Eri silkworm of the genus Samia is infected by protozoan disease pebrine caused by microsporidian Nosema species. The disease is transmitted to the next generation either through the eggs or consumption of contaminated leaves and it hinder eri seed production.
M. D. Senapati, A. K. Hazarika
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Pebrine Disease of Chinese Silkworm Controlled by Using Atmospheric Cold Plasma Jet
IEEE Transactions on Plasma Science, 2013Tussah pebrine disease resulting from Nosema bombycis (NB) spores causes massive production and economic losses in the silk industry in China. This paper reports on highly effective inactivation of NB spores for the control of pebrine disease by using an atmospheric pressure cold plasma jet. Both Giemsa dyeing measurement and tussah breeding experiment
Ying Song +5 more
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New molecular diagnosis for pebrine inspection in silkworm eggs using a real-time PCR probe
Gene Reports, 2018Abstract Pebrine is a most deadly disease of silkworm caused by infection with the microsporidium Nosema bombycis with extensive economic losses as a result of mortality in the end-stage of training. Several diagnosis methods have been established for detection of the disease, but most of these approaches are very old and rely on microscopic ...
F. Rafeie, M.H. Rezadoust, R. Abdoli
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