Opinion: Genome Editing of Human Embryos Broadens Ethics Discussions

Scientists are using a powerful gene editing technique to understand how human embryos develop.

| 4 min read

Register for free to listen to this article
Listen with Speechify
0:00
4:00
Share

PIXABAY, DRKONTOGIANNIIVFFor several years, scientists have experimented on human embryos with a powerful genome editing tool called CRISPR to see if they could correct genetic errors or reduce the risk of disease. In September, Kathy Niakan at the Francis Crick Institute in London and her colleagues reported they had used this tool on human embryos for a very different purpose—to better understand human development.

The use of CRISPR (pronounced “crisper”) to modify human embryos has prompted a healthy debate on the ethics of human genetic technologies. This tool is controversial, in part, because changes that are made to the embryo could be passed down to future generations. Niakan’s recent research is novel, and less ethically fraught than some other genome-editing research.

Research labs around the world are using CRISPR to selectively insert, delete, or replace DNA with far greater precision and at a lower cost than other genome-editing techniques. Since 2015, five reports have detailed its use in human embryos to correct disease-causing mutations or create resistance to infectious disease.

Scientists have modified the genes responsible for β-thalassemia (an inherited blood disorder), favism (a reaction to eating fava beans), ...

Interested in reading more?

Become a Member of

The Scientist Logo
Receive full access to more than 35 years of archives, as well as TS Digest, digital editions of The Scientist, feature stories, and much more!
Already a member? Login Here

Keywords

Meet the Author

  • Françoise Baylis

    This person does not yet have a bio.
Share
TS Digest January 2025
January 2025, Issue 1

Why Do Some People Get Drunk Faster Than Others?

Genetics and tolerance shake up how alcohol affects each person, creating a unique cocktail of experiences.

View this Issue
Sex Differences in Neurological Research

Sex Differences in Neurological Research

bit.bio logo
New Frontiers in Vaccine Development

New Frontiers in Vaccine Development

Sino
New Approaches for Decoding Cancer at the Single-Cell Level

New Approaches for Decoding Cancer at the Single-Cell Level

Biotium logo
Learn How 3D Cell Cultures Advance Tissue Regeneration

Organoids as a Tool for Tissue Regeneration Research 

Acro 

Products

Artificial Inc. Logo

Artificial Inc. proof-of-concept data demonstrates platform capabilities with NVIDIA’s BioNeMo

Sapient Logo

Sapient Partners with Alamar Biosciences to Extend Targeted Proteomics Services Using NULISA™ Assays for Cytokines, Chemokines, and Inflammatory Mediators

Bio-Rad Logo

Bio-Rad Extends Range of Vericheck ddPCR Empty-Full Capsid Kits to Optimize AAV Vector Characterization

Scientist holding a blood sample tube labeled Mycoplasma test in front of many other tubes containing patient samples

Accelerating Mycoplasma Testing for Targeted Therapy Development