Using Moderate Transgene Expression to Improve the Genetic Sexing System of the Australian Sheep Blow Fly Lucilia cuprina.

Ying Yan,Megan E Williamson,Maxwell J Scott

doi:10.3390/insects11110797

Ying Yan, Megan E Williamson + Show 1 more

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https://doi.org/10.3390/insects11110797

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Journal: Insects	Publication Date: Nov 13, 2020
Citations: 5	License type: CC BY 4.0

Affiliation: University of Giessen, North Carolina State University

Abstract

Simple SummaryPopulations of pest insects can be suppressed through repeated mass releases of sterilized insects. This is particularly effective if only sterile males are released. We previously developed several genetically modified strains of the Australian sheep blowfly that produce only males when raised on diet that lacked tetracycline. A disadvantage of the some of the engineered strains was that females would lay few eggs unless fed a diet with a low dose of tetracycline. In this study we show that effective male-only strains can be made by combining driver/effector lines that have moderate transgene expression/activity. Furthermore, the strain does not require tetracycline in the adult diet for female fertility. This “moderate expression/activity” strategy could be more generally applied to other pests that can be genetically modified.The sterile insect technique (SIT) is a promising strategy to control the Australian sheep blow fly Lucilia cuprina, a major pest of sheep. We have previously developed a transgenic embryonic sexing system (TESS) for this pest to facilitate the potential SIT application. TESS carry two transgenes, a tetracycline transactivator (tTA) driver and a tTA-activated pro-apoptotic effector. TESS females die at the embryonic stage unless tetracycline is supplied in the diet. However, undesired female sterility was observed in some TESS strains without tetracycline due to expression of tTA in ovaries. Here we investigate if TESS that combine transgenes with relatively low/moderate expression/activity improves the fertility of TESS females. tTA driver lines were evaluated for tTA expression by quantitative real time PCR and/or by crossing with a tTA-activated RFPex effector line. Fertility and lethality tests showed that a TESS strain containing a driver line with moderate tTA expression and an effector line showing moderate pro-apoptotic activity could recover the fertility of parental females and eliminated all female offspring at the embryonic stage. Consequently, such a strain could be further evaluated for an SIT program for L. cuprina, and such a “moderate strategy” could be considered for the TESS development in other pest species.

Highlights

The Australian sheep blow fly Lucilia cuprina Wiedemann (Diptera: Calliphoridae) is a major livestock pest that poses a threat to the sheep industry in Australia, New Zealand and Africa [1,2,3].Lucilia cuprina prefers warmer temperatures but could be expanding its range into historically coolerInsects 2020, 11, 797; doi:10.3390/insects11110797 www.mdpi.com/journal/insectsInsects 2020, 11, 797 areas, presumably due to the changing climate [4]
We previously reported the generation of transgenic embryonic sexing system (TESS) strains for L. cuprina, which can eliminate all females at an early stage and lead to a male-only population [16,17]
Reported TESS were made by combining a L. sericata bottleneck (Lsbnk)-tTA driver (DR2) or Lsspt-tTA driver (DR3) line with a tTA-activated L. sericata hid (Lshid) effector (EF1 or EF3) [16,17]

Summary

Introduction

The Australian sheep blow fly Lucilia cuprina Wiedemann (Diptera: Calliphoridae) is a major livestock pest that poses a threat to the sheep industry in Australia, New Zealand and Africa [1,2,3].Lucilia cuprina prefers warmer temperatures but could be expanding its range into historically coolerInsects 2020, 11, 797; doi:10.3390/insects11110797 www.mdpi.com/journal/insectsInsects 2020, 11, 797 areas, presumably due to the changing climate [4]. The sterile insect technique (SIT), which was successfully implemented to eradicate the New World screwworm Cochliomyia hominivorax Coquerel in North and Central America [7], was proposed to battle against L. cuprina [8]. For the ongoing screwworm SIT program, insects are sterilized by radiation and both sexes are released into the field to mate with their wild counterparts. This approach is not optimal since sterile females and males that are released together can mate with each other, reducing the efficiency of suppression [9,10]

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