Your search keyword '"Austin Burt"' showing total 4 results

1. A Y chromosome-linked genome editor for efficient population suppression in the malaria vector Anopheles gambiae

Author

Ignacio Tolosana, Katie Willis, Matthew Gribble, Lee Phillimore, Austin Burt, Tony Nolan, Andrea Crisanti, and Federica Bernardini

Subjects

Science

Abstract

Abstract Genetic control – the deliberate introduction of genetic traits to control a pest or vector population – offers a powerful tool to augment conventional mosquito control tools that have been successful in reducing malaria burden but that are compromised by a range of operational challenges. Self-sustaining genetic control strategies have shown great potential in laboratory settings, but hesitancy due to their invasive and persistent nature may delay their implementation. Here, instead, we describe a self-limiting strategy, designed to have geographically and temporally restricted effect, based on a Y chromosome-linked genome editor (YLE). The YLE comprises a CRISPR-Cas9 construct that is always inherited by males yet generates an autosomal dominant mutation that is transmitted to over 90% of the offspring and results in female-specific sterility. To our knowledge, our system represents a pioneering approach in the engineering of the Y chromosome to generate a genetic control strain for mosquitoes. Mathematical modelling shows that this YLE technology is up to seven times more efficient for population suppression than optimal versions of other self-limiting strategies, such as the widely used Sterile Insect Technique or the Release of Insects carrying a Dominant Lethal gene.

Published

2025

2. A Y chromosome-linked genome editor for efficient population suppression in the malaria vector Anopheles gambiae.

Author

Tolosana, Ignacio, Willis, Katie, Gribble, Matthew, Phillimore, Lee, Burt, Austin, Nolan, Tony, Crisanti, Andrea, and Bernardini, Federica

Subjects

LETHAL mutations, LIFE sciences, Y chromosome, FEMALE infertility, ANOPHELES gambiae, MOSQUITO control

Abstract

Genetic control – the deliberate introduction of genetic traits to control a pest or vector population – offers a powerful tool to augment conventional mosquito control tools that have been successful in reducing malaria burden but that are compromised by a range of operational challenges. Self-sustaining genetic control strategies have shown great potential in laboratory settings, but hesitancy due to their invasive and persistent nature may delay their implementation. Here, instead, we describe a self-limiting strategy, designed to have geographically and temporally restricted effect, based on a Y chromosome-linked genome editor (YLE). The YLE comprises a CRISPR-Cas9 construct that is always inherited by males yet generates an autosomal dominant mutation that is transmitted to over 90% of the offspring and results in female-specific sterility. To our knowledge, our system represents a pioneering approach in the engineering of the Y chromosome to generate a genetic control strain for mosquitoes. Mathematical modelling shows that this YLE technology is up to seven times more efficient for population suppression than optimal versions of other self-limiting strategies, such as the widely used Sterile Insect Technique or the Release of Insects carrying a Dominant Lethal gene. Genetic control of mosquito vector populations is a key tool for reducing malaria infections. Here, the authors develop a self-limiting strategy where CRISPR-Cas9 is inherited exclusively on the Y chromosome and drives an autosomal mutation resulting in dominant sterility in female offspring. [ABSTRACT FROM AUTHOR]

Published

2025

3. Human–Bug Encounters in Multispecies Networks

Author

Laura Hollsten, Otto Latva, Sanna Lillbroända-Annala, Suvi Rytty, Tuomas Räsänen, Laura Hollsten, Otto Latva, Sanna Lillbroända-Annala, Suvi Rytty, and Tuomas Räsänen

Subjects

Human-animal relationships, Insects--Anthropological aspects

Abstract

While providing a basis for all ecosystems, bugs such as insects and arachnids also destroy crops and indirectly kill humans and other animals by the millions. This book illuminates the many ways in which human lives affect and are affected by bugs as part of a wider network of species. 14 chapters reveal how knowledge, ideas, and emotions related to bugs are historically and culturally formed. With many bug populations in free fall, how can humans and bugs coexist? This book examines this question and offers a new ethics for this coexistence. Contributors are Michaela Fenske, Minna Santaoja, Concepción Cortés Zulueta, Heidi Mikkola, Laura Hollsten, Sophie FitzMaurice, Otto Latva, Marianne Mäkelin, Taina Syrjämaa, Suvi Rytty, Sanna Lillbroända-Annala, Emily Webster, Karine Aasgaard Jansen, Heta Lähdesmäki, and Tuomas Räsänen.

Published

2025

4. Typewriter.

Author

Ungvarsky, Janine

Subjects

Office equipment & supplies, Typewriters, Typewriting

Abstract

A typewriter is a mechanical device designed to allow a user to create uniform letters and numbers with ink on paper. While typewriter design has changed over time, most typewriters are operated by pushing keys that cause designated letters or numbers to carry ink to the paper and imprint it. Through the use of a typewriter, a person may create a document as uniform in appearance as those created by larger commercial printing presses. Despite the convenience they provided upon their introduction, typewriters were slow to gain popularity and enjoyed only about a century of wide use before being replaced by word processors and computers.

Published

2025