Your search keyword '"Thomas Wolf"' showing total 5 results

1. Methods for the Cost-Effective Production of Bacteria-Derived Double-Stranded RNA for in vitro Knockdown Studies

Author

Thomas-Wolf Verdonckt and Jozef Vanden Broeck

Subjects

Physiology, Physiology (medical)

Abstract

RNA interference (RNAi) is a highly conserved pathway for the post-transcriptional regulation of gene expression. It has become a crucial tool in life science research, with promising potential for pest-management applications. To induce an RNAi response, long double-stranded RNA (dsRNA) sequences specific to the target gene must be delivered to the cells. This dsRNA substrate is then processed to small RNA (sRNA) fragments that direct the silencing response. A major obstacle to applying this technique is the need to produce sufficiently large amounts of dsRNA in a very cost-effective manner. To overcome this issue, much attention has been given to the development and optimization of biological production systems. One such system is the E. coli HT115 strain transformed with the L4440 vector. While its effectiveness at inducing knockdowns in animals through feeding of the bacteria has been demonstrated, there is only limited knowledge on the applicability of bacteria-derived dsRNA for in vitro experiments. In this paper, we describe and compare methods for the economical (43.2 €/mg) and large-scale (mg range) production of high-quality dsRNA from the HT115 bacterial system. We transformed the bacteria with constructs targeting the Helicoverpa-specific gene Dicer2 and, as a non-endogenous control, the Green Fluorescent Protein gene (GFP). First, we compared the total RNA extraction yields of four cell-lysis treatments: heating, lysozyme digestion, sonication, and a control protocol. Second, we assessed the quality and purity of these extracted dsRNAs. Third, we compared methods for the further purification of dsRNAs from crude RNA extracts. Finally, we demonstrated the efficiency of the produced dsRNAs at inducing knockdowns in a lepidopteran cell line. The insights and results from this paper will empower researchers to conduct otherwise prohibitively expensive knockdown studies, and greatly reduce the production times of routinely or large-scale utilized dsRNA substrates.

Published

2022

2. Methods for the Cost-Effective Production of Bacteria-Derived Double-Stranded RNA for in vitro Knockdown Studies

Author

Verdonckt, Thomas-Wolf, primary and Vanden Broeck, Jozef, additional

Published

2022

3. RNA Interference in Insects: Protecting Beneficials and Controlling Pests

Author

Dulce Cordeiro dos Santos, Elise Vogel, Jozef Vanden Broeck, Thomas Wolf Verdonckt, and Lina Mingels

Subjects

0106 biological sciences, 0301 basic medicine, Physiology, Human life, Computational biology, Review, Biology, environmental RNAi, 01 natural sciences, Viral infection, lcsh:Physiology, 03 medical and health sciences, RNA interference, Physiology (medical), Gene silencing, Human virome, Beneficial insects, viruses, insects, lcsh:QP1-981, Mechanism (biology), fungi, RNA, systemic RNAi, antiviral immunity, delivery systems, 010602 entomology, 030104 developmental biology, insecticides

Abstract

Insects constitute the largest and most diverse group of animals on Earth with an equally diverse virome. The main antiviral immune system of these animals is the post-transcriptional gene-silencing mechanism known as RNA(i) interference. Furthermore, this process can be artificially triggered via delivery of gene-specific double-stranded RNA molecules, leading to specific endogenous gene silencing. This is called RNAi technology and has important applications in several fields. In this paper, we review RNAi mechanisms in insects as well as the potential of RNAi technology to contribute to species-specific insecticidal strategies. Regarding this aspect, we cover the range of strategies considered and investigated so far, as well as their limitations and the most promising approaches to overcome them. Additionally, we discuss patterns of viral infection, specifically persistent and acute insect viral infections. In the latter case, we focus on infections affecting economically relevant species. Within this scope, we review the use of insect-specific viruses as bio-insecticides. Last, we discuss RNAi-based strategies to protect beneficial insects from harmful viral infections and their potential practical application. As a whole, this manuscript stresses the impact of insect viruses and RNAi technology in human life, highlighting clear lines of investigation within an exciting and promising field of research. ispartof: Frontiers In Physiology vol:9 issue:JAN ispartof: location:Switzerland status: published

Published

2018

4. RNA Interference in Insects: Protecting Beneficials and Controlling Pests

Author

Vogel, Elise, primary, Santos, Dulce, additional, Mingels, Lina, additional, Verdonckt, Thomas-Wolf, additional, and Broeck, Jozef Vanden, additional

Published

2019

5. RNA Interference in Insects: Protecting Beneficials and Controlling Pests

Author

Elise Vogel, Dulce Santos, Lina Mingels, Thomas-Wolf Verdonckt, and Jozef Vanden Broeck

Subjects

insects, RNA interference, environmental RNAi, systemic RNAi, insecticides, delivery systems, Physiology, QP1-981

Abstract

Insects constitute the largest and most diverse group of animals on Earth with an equally diverse virome. The main antiviral immune system of these animals is the post-transcriptional gene-silencing mechanism known as RNA(i) interference. Furthermore, this process can be artificially triggered via delivery of gene-specific double-stranded RNA molecules, leading to specific endogenous gene silencing. This is called RNAi technology and has important applications in several fields. In this paper, we review RNAi mechanisms in insects as well as the potential of RNAi technology to contribute to species-specific insecticidal strategies. Regarding this aspect, we cover the range of strategies considered and investigated so far, as well as their limitations and the most promising approaches to overcome them. Additionally, we discuss patterns of viral infection, specifically persistent and acute insect viral infections. In the latter case, we focus on infections affecting economically relevant species. Within this scope, we review the use of insect-specific viruses as bio-insecticides. Last, we discuss RNAi-based strategies to protect beneficial insects from harmful viral infections and their potential practical application. As a whole, this manuscript stresses the impact of insect viruses and RNAi technology in human life, highlighting clear lines of investigation within an exciting and promising field of research.

Published

2019