Ernst A. Wimmer scite author profile

Malaria is estimated to cause 0.7 to 2.7 million deaths per year, but the actual figures could be substantially higher owing to under-reporting and difficulties in diagnosis. If no new control measures are developed, the malaria death toll is projected to double in the next 20 years. Efforts to control the disease are hampered by drug resistance in the Plasmodium parasites, insecticide resistance in mosquitoes, and the lack of an effective vaccine. Because mosquitoes are obligatory vectors for malaria transmission, the spread of malaria could be curtailed by rendering them incapable of transmitting parasites. Many of the tools required for the genetic manipulation of mosquito competence for malaria transmission have been developed. Foreign genes can now be introduced into the germ line of both culicine and anopheline mosquitoes, and these transgenes can be expressed in a tissue-specific manner. Here we report on the use of such tools to generate transgenic mosquitoes that express antiparasitic genes in their midgut epithelium, thus rendering them inefficient vectors for the disease. These findings have significant implications for the development of new strategies for malaria control.

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A universal marker for transgenic insects

Berghammer¹,

Klingler²,

Wimmer

1999

Nature

361

312

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A versatile vector set for animal transgenesis

Horn¹,

Wimmer²

2000

Development Genes and Evolution

330

300

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Genetic manipulation of a series of diverged arthropods is a highly desirable goal for a better understanding of developmental and evolutionary processes. A major obstacle so far has been the difficulty in obtaining marker genes that allow easy and reliable identification of transgenic animals. Here, we present a versatile vector set for germline transformation based on the promiscuous transposons mariner, Hermes and piggyBac. Into these vectors, we introduced a potentially universal marker system that is comprised of an artificial promoter containing three Pax-6 homodimer binding sites. This promoter drives strong expression of spectral variants of the enhanced green fluorescent protein (EGFP) in larval, pupal, and adult photoreceptors. Using special filter sets, the yellow (EYFP) and cyan (ECFP) variant are fully distinguishable and therefore represent a separable pair of markers. Furthermore, we adapted a simple plasmid-based transposition assay system to enable quick functional tests of our vectors in different arthropod species before employing them in more laborious germline transformation experiments. Using this system we demonstrate that our vectors transpose in both Drosophila melanogaster and Drosophila virilis.

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The iBeetle large-scale RNAi screen reveals gene functions for insect development and physiology

et al. 2015

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Genetic screens are powerful tools to identify the genes required for a given biological process. However, for technical reasons, comprehensive screens have been restricted to very few model organisms. Therefore, although deep sequencing is revealing the genes of ever more insect species, the functional studies predominantly focus on candidate genes previously identified in Drosophila, which is biasing research towards conserved gene functions. RNAi screens in other organisms promise to reduce this bias. Here we present the results of the iBeetle screen, a large-scale, unbiased RNAi screen in the red flour beetle, Tribolium castaneum, which identifies gene functions in embryonic and postembryonic development, physiology and cell biology. The utility of Tribolium as a screening platform is demonstrated by the identification of genes involved in insect epithelial adhesion. This work transcends the restrictions of the candidate gene approach and opens fields of research not accessible in Drosophila.

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Early development of leg and wing primordia in the Drosophila embryo

Cohen

Wimmer

Cohen

1991

Mechanisms of Development

160

211

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Ernst A. Wimmer

Transgenic anopheline mosquitoes impaired in transmission of a malaria parasite

A universal marker for transgenic insects

A versatile vector set for animal transgenesis

The iBeetle large-scale RNAi screen reveals gene functions for insect development and physiology

Early development of leg and wing primordia in the Drosophila embryo

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