Efficient ΦC31 integrase–mediated site-specific germline transformation of Anopheles gambiae

Emilie Pondeville; Nicolas Puchot; Janet M. Meredith; Amy Lynd; Kenneth D. Vernick; Gareth Lycett; Paul Eggleston; Catherine Bourgouin

doi:10.1038/nprot.2014.117

Efficient ΦC31 integrase–mediated site-specific germline transformation of Anopheles gambiae

Emilie Pondeville, Nicolas Puchot, Janet M. Meredith, Amy Lynd, Kenneth D. Vernick, Gareth Lycett, Paul Eggleston, Catherine Bourgouin

Vector Biology

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

30 Citations (Scopus)

Abstract

Current transgenic methodology developed for mosquitoes has not been applied widely to the major malaria vector Anopheles gambiae, which has proved more difficult to genetically manipulate than other mosquito species and dipteran insects. In this protocol, we describe ΦC31-mediated site-specific integration of transgenes into the genome of A. gambiae. The ΦC31 system has many advantages over 'classical' transposon-mediated germline transformation systems, because it allows integration of large transgenes at specific, characterized genomic locations. Starting from a general protocol, we have optimized steps from embryo collection to co-injection of transgene-containing plasmid and in vitro-produced ΦC31 integrase mRNA. We also provide tips for screening transgenic larvae. The outlined procedure provides robust transformation in A. gambiae, resulting in homozygous transgenic lines in ∼2-3 months.

Original language	English
Pages (from-to)	1698-1712
Number of pages	15
Journal	Nature Protocols
Volume	9
Issue number	7
Early online date	14 Jun 2014
DOIs	https://doi.org/10.1038/nprot.2014.117
Publication status	Published - 1 Jul 2014

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10.1038/nprot.2014.117

2014-03-28 Pondeville et al LAST SubmittedAccepted author manuscript, 7.78 MB

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title = "Efficient ΦC31 integrase–mediated site-specific germline transformation of Anopheles gambiae",

abstract = "Current transgenic methodology developed for mosquitoes has not been applied widely to the major malaria vector Anopheles gambiae, which has proved more difficult to genetically manipulate than other mosquito species and dipteran insects. In this protocol, we describe ΦC31-mediated site-specific integration of transgenes into the genome of A. gambiae. The ΦC31 system has many advantages over 'classical' transposon-mediated germline transformation systems, because it allows integration of large transgenes at specific, characterized genomic locations. Starting from a general protocol, we have optimized steps from embryo collection to co-injection of transgene-containing plasmid and in vitro-produced ΦC31 integrase mRNA. We also provide tips for screening transgenic larvae. The outlined procedure provides robust transformation in A. gambiae, resulting in homozygous transgenic lines in ∼2-3 months.",

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Efficient ΦC31 integrase–mediated site-specific germline transformation of Anopheles gambiae

Abstract

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