Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus

Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus

Bed nets treated with insecticides have been instrumental in reducing malaria mortality, but insecticide resistance is on the rise. Here, Mugenzi et al. identify genetic variants in the P450 gene CYP6P9b of Anopheles funestus that associate with insecticide resistance and develop a PCR-based diagnos...

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Autores principales: Leon M. J. Mugenzi, Benjamin D. Menze, Magellan Tchouakui, Murielle J. Wondji, Helen Irving, Micareme Tchoupo, Jack Hearn, Gareth D. Weedall, Jacob M. Riveron, Charles S. Wondji
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/ccf4a881a06c4c60933c5e58ed594e6b
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spelling oai:doaj.org-article:ccf4a881a06c4c60933c5e58ed594e6b2021-12-02T15:35:06ZCis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus10.1038/s41467-019-12686-52041-1723https://doaj.org/article/ccf4a881a06c4c60933c5e58ed594e6b2019-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-12686-5https://doaj.org/toc/2041-1723Bed nets treated with insecticides have been instrumental in reducing malaria mortality, but insecticide resistance is on the rise. Here, Mugenzi et al. identify genetic variants in the P450 gene CYP6P9b of Anopheles funestus that associate with insecticide resistance and develop a PCR-based diagnostic assay to help identify pyrethroid-resistant strains.Leon M. J. MugenziBenjamin D. MenzeMagellan TchouakuiMurielle J. WondjiHelen IrvingMicareme TchoupoJack HearnGareth D. WeedallJacob M. RiveronCharles S. WondjiNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-11 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Leon M. J. Mugenzi
Benjamin D. Menze
Magellan Tchouakui
Murielle J. Wondji
Helen Irving
Micareme Tchoupo
Jack Hearn
Gareth D. Weedall
Jacob M. Riveron
Charles S. Wondji
Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
description Bed nets treated with insecticides have been instrumental in reducing malaria mortality, but insecticide resistance is on the rise. Here, Mugenzi et al. identify genetic variants in the P450 gene CYP6P9b of Anopheles funestus that associate with insecticide resistance and develop a PCR-based diagnostic assay to help identify pyrethroid-resistant strains.
format article
author Leon M. J. Mugenzi
Benjamin D. Menze
Magellan Tchouakui
Murielle J. Wondji
Helen Irving
Micareme Tchoupo
Jack Hearn
Gareth D. Weedall
Jacob M. Riveron
Charles S. Wondji
author_facet Leon M. J. Mugenzi
Benjamin D. Menze
Magellan Tchouakui
Murielle J. Wondji
Helen Irving
Micareme Tchoupo
Jack Hearn
Gareth D. Weedall
Jacob M. Riveron
Charles S. Wondji
author_sort Leon M. J. Mugenzi
title Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
title_short Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
title_full Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
title_fullStr Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
title_full_unstemmed Cis-regulatory CYP6P9b P450 variants associated with loss of insecticide-treated bed net efficacy against Anopheles funestus
title_sort cis-regulatory cyp6p9b p450 variants associated with loss of insecticide-treated bed net efficacy against anopheles funestus
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/ccf4a881a06c4c60933c5e58ed594e6b
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