• 31 min
  1. Gene-drives and active genetics: introduction to gene-drives and their implications for health and society

  • Prof. Ethan Bier
• Gene drive systems
• 42 min
  2. Population modification of malaria vector mosquitoes

  • Dr. Anthony A. James
• 28 min
  3. Engineering reciprocal chromosomal translocations to control the fate of populations

  • Dr. Omar Akbari
• 46 min
  4. CRISPR-based suppression drives for vector control

  • Prof. Andrea Crisanti
• 38 min
  5. Engineering the composition and fate of wild populations with Medea and ClvR: key characteristics of Medea and ClvR

  • Prof. Bruce A. Hay
• 26 min
  6. Engineering the composition and fate of wild populations with Medea and ClvR: uses and development of ClvR

  • Prof. Bruce A. Hay
• Active genetics and drive effector factors
• 54 min
  7. The dawn of active genetics

  • Prof. Ethan Bier
• 22 min
  8. Suppressing mosquito disease vectors via manipulating fertility, sex and male-courtship drive

  • Prof. Craig Montell
• 35 min
  9. Ecological considerations for gene drive systems

  • Prof. Gregory C. Lanzaro
• Mathematical modeling
• 52 min
  10. Gene drive: what is possible at the population level with currently-available molecular components?

  • Prof. John Marshall
• 45 min
  11. Gene drive behavior when pest populations have age, mating and spatial structure

  • Prof. Fred Gould
  • Prof. Alun Lloyd
• Social and ethical considerations
• 43 min
  12. The risks and benefits of gene drive technology

  • Prof. Henry Greely
• 32 min
  13. Guidance for responsible testing and implementation of gene-drive systems

  • Prof. Stephanie James
• 25 min
  14. Public response to a proposed field trial of genetically engineered mosquitoes in the United States

  • Prof. Cinnamon Bloss
• 39 min
  15. CRISPR editing therapy for Duchenne Muscular Dystrophy 1

  • Prof. Dongsheng Duan
• 27 min
  16. CRISPR editing therapy for Duchenne Muscular Dystrophy 2

  • Prof. Dongsheng Duan

Printable Handouts

PDF

Navigable Slide Index

1. Introduction
2. The most dangerous animals on the planet
3. Mosquitoes: the most dangerous animals
4. Troubling fact: dengue is on the rise
5. Chemical approaches: dangerous or inadequate
6. Only female mosquito bites people
7. One key idea: release sterile males
8. Limitations of SIT
9. CRISPR/Cas9 genome editing
10. Genetically engineered sterile males
11. Interplay of male courtship drive & other behaviors
12. Identifying mutations that increase courtship drive
13. Leveraging insights from Drosophila
14. Callback control using TRPA1
15. Proposed solution for effective and safe SIT
16. Engineering a female-specific lethal drive (1)
17. Engineering a female-specific lethal drive (2)
18. Females to males conversion using All Male drive
19. Conclusions

Topics Covered

• Mosquitoes are the most dangerous animals in the world
• Aedes aegypti spread Dengue, Zika and other viral-borne diseases
• Suppression of Aedes through release of genetically engineered males in ways to prevent their persistence in the environment

Links

Series:

• Gene-Drives and Active Genetics

Categories:

• Genetics & Epigenetics

Talk Citation

Montell, C. (2018, May 30). Suppressing mosquito disease vectors via manipulating fertility, sex and male-courtship drive [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved April 20, 2024, from https://hstalks.com/bs/3731/.
Export Citation (RIS)

Publication History

• Published on May 30, 2018

Financial Disclosures

• Prof. Craig Montell has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.