Speed Gene Traced to One Founder

Researchers track a racehorse “speed gene” back to a single mare in the United Kingdom.

Written byEdyta Zielinska

| 1 min read

Register for free to listen to this article

Listen with Speechify

0:00

1:00

Share

FLICKR, MNSC

A gene linked to speed in today’s Thoroughbred horses was tracked back to a British mare that lived roughly 300 years ago, according to a study published in Nature Communications Tuesday (January 24).

The gene, a variant of myostatin, which is key in developing muscle mass in many species, was shown to predict the speed and stamina of a horse. Two copies of the C-type variant, for example, is likely to result in a horse that runs fast over short distances, ideal for the sprint races that are commonly run today. The other variant, the type T, is better suited for stamina, allowing horses to run fast for long distances.

Researchers looked at the genetics and pedigree of 593 horses, dead and alive, and tracked ...

Interested in reading more?

Placeholder Image

The Scientist ARCHIVES

Become a Member of

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!

Join for free today

Already a member? Login Here

Related Topics

Meet the Author

Edyta Zielinska
This person does not yet have a bio.View Full Profile

Share

Related Research Resources

Conceptual 3D image of a multicolored membrane protein on a black background.

Making the Most of Membrane Protein Production

Article

An image of a glowing hexagonal pattern on a dark background.

Enhancing Sequencing-Based Genotyping with Enrichment Panels

Article

Conceptual image of a blue DNA helix with bubbles of various sizes in the background.

Advances in Methylation Detection and Custom Capture Panels

Article

Scientist wearing purple nitrile gloves and cleaning a surface with a disinfectant wipe

Combating Incubator Contamination

Whitepaper

July Digest 2025

July 2025, Issue 1

What Causes an Earworm?

Memory-enhancing neural networks may also drive involuntary musical loops in the brain.

View this Issue

Research Resources

Podcasts

Webinars

Videos

Infographics

eBooks

Explore synthetic DNA’s many applications in cancer research

Weaving the Fabric of Cancer Research with Synthetic DNA

Modern DNA synthesis platforms empower researchers to explore the molecular world, from next-generation sequencing to cell and gene therapy development.

Illustrated plasmids in bright fluorescent colors

Enhancing Elution of Plasmid DNA

An improved chromatography membrane elution method helps scientists achieve higher yields of pure plasmid DNA.

An illustration of green lentiviral particles.

Maximizing Lentivirus Recovery

By fine-tuning polishing conditions, scientists attain high titers of infectious lentiviral particles during purification.

Explore new strategies for improving plasmid DNA manufacturing workflows.

Overcoming Obstacles in Plasmid DNA Manufacturing

Discover a scalable and flexible GMP-compliant workflow for producing plasmid DNA.

Products

Product News

shiftbioscience

Shift Bioscience proposes improved ranking system for virtual cell models to accelerate gene target discovery

Study identifies new metrics to enhance scRNA-seq based virtual cell modelling

BRANDTECH Scientific Launches New Website for VACUU·LAN® Lab Vacuum Systems

Redefining Lab Vacuum with Efficiency, Flexibility, and Sustainability

The Scientist Placeholder Image

Waters Enhances Alliance iS HPLC System Software, Setting a New Standard for End-to-End Traceability and Data Integrity

Industry-first smart HPLC system to provide authenticated user access verification on onboard touchscreen for superior security.

The Scientist Placeholder Image

Agilent Unveils the Next Generation in LC-Mass Detection: The InfinityLab Pro iQ Series

Setting new standards for intelligent mass detection, sensitivity, and sustainability.