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Journal Article 2014

A single mutation in the GSTe2 gene allows tracking of metabolically based insecticide resistance in a major malaria vector

Autor: Riveron, J. Yunta, C. Ibrahim, S. Djouaka, R.F. Irving, H. Menze, B. Ismail, H. Hemingway, J. Ranson, H. Albert, A. Wondji, C.S.

Background: Metabolic resistance to insecticides is the biggest threat to the continued effectiveness of malariavector control. However, its underlying molecular basis, crucial for successful resistance management, remainspoorly characterized.Results: Here, we demonstrate that the single amino ac...

Enlace original: https://cgspace.cgiar.org/handle/10568/75891

Investigación en Agricultura

INSECTICIDE

MUTATION

METABOLIC

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Riveron, J. , Yunta, C. , Ibrahim, S. , Djouaka, R.F. , Irving, H. , Menze, B. , Ismail, H. , Hemingway, J. , Ranson, H. , Albert, A. , Wondji, C.S. , [A single mutation in the GSTe2 gene allows tracking of metabolically based insecticide resistance in a major malaria vector] , A single mutation in the GSTe2 gene allows tracking of metabolically based insecticide resistance in a major malaria vector

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A single mutation in the GSTe2 gene allows tracking of metabolically based insecticide resistance in a major malaria vector

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A single mutation in the GSTe2 gene allows tracking of metabolically based insecticide resistance in a major malaria vector

[U14ArtRiveronSingleInthomDev.pdf]