Stable introduction of a life-shortening Wolbachia infection into the mosquito Aedes aegypti

Conor J. McMeniman; Roxanna V. Lane; Bodil N. Cass; Amy W.C. Fong; Manpreet Sidhu; Yu Feng Wang; Scott L. O'Neill

doi:10.1126/science.1165326

Stable introduction of a life-shortening Wolbachia infection into the mosquito Aedes aegypti

Conor J. McMeniman, Roxanna V. Lane, Bodil N. Cass, Amy W.C. Fong, Manpreet Sidhu, Yu Feng Wang, Scott L. O'Neill

Research output: Contribution to journal › Article › peer-review

585 Scopus citations

Abstract

Most pathogens require a relatively long period of development in their mosquito vector before they can be transmitted to a new human host; hence, only older insects are of epidemiological importance. The successful transfer of a life-shortening strain of the inherited bacterial symbiont, Wolbachia, into the major mosquito vector of dengue, Aedes aegypti, halved adult life span under laboratory conditions. The association is stable, and the Wolbachia strain is maternally inherited at high frequency. It is capable of inducing complete cytoplasmic incompatibility, which should facilitate its invasion into natural field populations and its persistence over time. Our data suggest that targeting mosquito age with inherited Wolbachia infections may be a viable strategy to reduce the transmission of pathogens such as dengue viruses.

Original language	English (US)
Pages (from-to)	141-144
Number of pages	4
Journal	Science
Volume	323
Issue number	5910
DOIs	https://doi.org/10.1126/science.1165326
State	Published - Jan 2 2009
Externally published	Yes

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title = "Stable introduction of a life-shortening Wolbachia infection into the mosquito Aedes aegypti",

abstract = "Most pathogens require a relatively long period of development in their mosquito vector before they can be transmitted to a new human host; hence, only older insects are of epidemiological importance. The successful transfer of a life-shortening strain of the inherited bacterial symbiont, Wolbachia, into the major mosquito vector of dengue, Aedes aegypti, halved adult life span under laboratory conditions. The association is stable, and the Wolbachia strain is maternally inherited at high frequency. It is capable of inducing complete cytoplasmic incompatibility, which should facilitate its invasion into natural field populations and its persistence over time. Our data suggest that targeting mosquito age with inherited Wolbachia infections may be a viable strategy to reduce the transmission of pathogens such as dengue viruses.",

author = "McMeniman, {Conor J.} and Lane, {Roxanna V.} and Cass, {Bodil N.} and Fong, {Amy W.C.} and Manpreet Sidhu and Wang, {Yu Feng} and O'Neill, {Scott L.}",

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T1 - Stable introduction of a life-shortening Wolbachia infection into the mosquito Aedes aegypti

AU - McMeniman, Conor J.

AU - Lane, Roxanna V.

AU - Cass, Bodil N.

AU - Fong, Amy W.C.

AU - Sidhu, Manpreet

AU - Wang, Yu Feng

AU - O'Neill, Scott L.

PY - 2009/1/2

Y1 - 2009/1/2

N2 - Most pathogens require a relatively long period of development in their mosquito vector before they can be transmitted to a new human host; hence, only older insects are of epidemiological importance. The successful transfer of a life-shortening strain of the inherited bacterial symbiont, Wolbachia, into the major mosquito vector of dengue, Aedes aegypti, halved adult life span under laboratory conditions. The association is stable, and the Wolbachia strain is maternally inherited at high frequency. It is capable of inducing complete cytoplasmic incompatibility, which should facilitate its invasion into natural field populations and its persistence over time. Our data suggest that targeting mosquito age with inherited Wolbachia infections may be a viable strategy to reduce the transmission of pathogens such as dengue viruses.

AB - Most pathogens require a relatively long period of development in their mosquito vector before they can be transmitted to a new human host; hence, only older insects are of epidemiological importance. The successful transfer of a life-shortening strain of the inherited bacterial symbiont, Wolbachia, into the major mosquito vector of dengue, Aedes aegypti, halved adult life span under laboratory conditions. The association is stable, and the Wolbachia strain is maternally inherited at high frequency. It is capable of inducing complete cytoplasmic incompatibility, which should facilitate its invasion into natural field populations and its persistence over time. Our data suggest that targeting mosquito age with inherited Wolbachia infections may be a viable strategy to reduce the transmission of pathogens such as dengue viruses.

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Stable introduction of a life-shortening Wolbachia infection into the mosquito Aedes aegypti

Abstract

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