A transgenic male-only strain of the New World screwworm for an improved control program using the sterile insect technique

Concha, Carolina; Azhahianambi, P.; Guerrero, Felix D.; Sagel, Agustin; Li, Fang; Osborne, Jason A.; Hernandez, Yillian; Pardo, Trinidad; Quintero, Gladys; Vasquez, Mario; Keller, Gwen P.; Phillips, Pamela L.; Welch, John B.; McMillan, W. Owen; Skoda, S.; Scott, Maxwell J.

doi:10.1186/s12915-016-0296-8

Cited by 73 publications

(88 citation statements)

References 38 publications

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“…Although both approaches could involve disrupting normal female development, the gene drive approach is more efficient due to the non-Mendelian copying mechanism that spreads the transgene through the targeted population. Although transgenic strains carrying conditional female-lethal genes have been developed for several important agricultural insect pests (Ant et al 2012;Schetelig and Handler 2012;Jin et al 2013;Li et al 2014;Concha et al 2016), they have not yet been utilized for pest control. For these strains, multiple successive releases of transgenic males in large excess over the wild-type males (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…However, to date this has not been possible in the screwworm program. Recently, the corresponding author's laboratory, along with USDA-ARS collaborators, have succeeded in creating transgenic 'male-only' screwworm strains that carry a conditional female-lethal gene that is suppressed by addition of tetracycline to the larval and adult diets (Concha et al 2016). The best of these strains are now being evaluated under semi mass rearing conditions.…”

Section: The New World Screwworm: a Devastating Obligate Parasite Of mentioning

confidence: 99%

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Agricultural production: assessment of the potential use of Cas9-mediated gene drive systems for agricultural pest control

Scott

Gould

Lorenzen

et al. 2017

Journal of Responsible Innovation

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Section: Discussionmentioning

confidence: 99%

Section: The New World Screwworm: a Devastating Obligate Parasite Of mentioning

confidence: 99%

Agricultural production: assessment of the potential use of Cas9-mediated gene drive systems for agricultural pest control

Scott

Gould

Lorenzen

et al. 2017

Journal of Responsible Innovation

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“…fsRIDL lines have been generated in a variety of Lepidoptera (Jin et al 2013; Tan et al 2013), tephritid fruitflies (Ant et al 2012; Fu et al 2007; Schetelig and Handler 2012; Morrison et al 2010), calliphorid blowflies (Yan and Scott 2015; Concha 2016) and mosquitoes (Fu et al 2010; Marinotti et al 2013; Labbe 2012) with preliminary research now extending this technology to the Coleoptera (Gregory 2015). Repeated releases of fsRIDL transgenic insects have shown the capacity to rapidly eliminate conspecific caged populations of Ae.…”

Section: Self-limiting Strategiesmentioning

confidence: 99%

Towards the genetic control of invasive species

2017

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Invasive species remain one of the greatest threats to global biodiversity. Their control would be enhanced through the development of more effective and sustainable pest management strategies. Recently, a novel form of genetic pest management (GPM) has been developed in which the mating behaviour of insect pests is exploited to introduce genetically engineered DNA sequences into wild conspecific populations. These ‘transgenes’ work in one or more ways to reduce the damage caused by a particular pest, for example reducing its density, or its ability to vector disease. Although currently being developed for use against economically important insect pests, these technologies would be highly appropriate for application against invasive species that threaten biodiversity. Importantly, these technologies have begun to advance in scope beyond insects to vertebrates, which include some of the world’s worst invasives. Here we review the current state of this rapidly progressing field and, using an established set of eradication criteria, discuss the characteristics which make GPM technologies suitable for application against invasive pests.Electronic supplementary materialThe online version of this article (doi:10.1007/s10530-017-1384-6) contains supplementary material, which is available to authorized users.

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“…There is no shortage of abatement districts that are interested." -Stephen Dobson making it possible to rear and release males only, thus cutting the production costs further (7). The first test release was done in March in Panama, after a lengthy review process, says Welch.…”

Section: Gene Drive Shows Promise In the Lab But Remains Riskymentioning

confidence: 99%

The race to extinguish insect pests by enlisting their own kind

Carey¹

2018

Proc. Natl. Acad. Sci. U.S.A.

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The race to extinguish insect pests by enlisting their own kindThe unheralded success of a massive operation to control the insidious screwworm offers lessons learned and cautionary tales for mosquitoes and other insect scourges. John Carey, Science WriterOn a Friday in the fall of 2016, John Welch got an email he'd been dreading-a picture of a mystery insect sent from the Florida Keys. "I knew immediately what it was-and that it was bad," the United States Department of Agriculture (USDA) entomologist says. He immediately hopped on a plane to Florida. There he found dozens and dozens of endangered Key deer dead or staggering around blind with the tops of their heads or eyes eaten away or terrible wounds on their bodies. "It was horrific," Welch recalls.And the clues suggested a threat to far more than just deer. The culprit was screwworm, a fly that lays its eggs in open wounds or in moist areas like eyes and noses of warm-blooded mammals, from dogs to people. When the eggs hatch, the larvae start dining. Without aggressive immediate treatment, "it's pretty much a death sentence, being eaten alive by the maggots," says Welch.The stakes were high. In the past, screwworm had devastated the livestock industry all across the US South before the pest was eradicated. Now it was back. Could science win the battle again?The fight had further implications for battles against a host of destructive and disease-carrying insect pests-mosquitoes in particular. Such fights are likely to intensify. In May 2018, the Centers for Disease Control and Prevention reported that between 2004 and 2016 the number of reported cases of illnesses caused by mosquito, tick, and flea bites tripled in the United States, to more than 640,000; in the same time period, nine new germs spread by mosquitoes and ticks were discovered or introduced into the United States (1).Inspired by the success of the decades-old screwworm-control effort and buoyed by a variety of new biotechnologies, researchers in dozens of academic and company labs are working to conscript the bugs themselves as weapons against their own kind. The idea: tinker with genes or parasites to create insects that carry a lethal cargo to their wild counterparts or that cripple the ability to transmit disease.Field trials in South America and the Cayman Islands of a transgenic Aedes aegypti mosquito created by a British company called Oxitec, for example, show that wild populations of the denguecarrying bug can be almost completely wiped out if enough gene-altered bugs are let loose. Another company, MosquitoMate, is rearing hundreds of thousands of mosquitoes infected with a bacterial parasite, Wolbachia; the company is looking for similar effects, with trials in California and Florida. A gene-engineered version of the crop-destroying diamondback moth has been successfully tested in the field. And researchers are experimenting with gene alterations that don't just kill insects or slow disease transmission but that also spread through wild populations via gene drive, eliminating the nee...

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A transgenic male-only strain of the New World screwworm for an improved control program using the sterile insect technique

Cited by 73 publications

References 38 publications

Agricultural production: assessment of the potential use of Cas9-mediated gene drive systems for agricultural pest control

Agricultural production: assessment of the potential use of Cas9-mediated gene drive systems for agricultural pest control

Towards the genetic control of invasive species

The race to extinguish insect pests by enlisting their own kind

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