This story has been updated to include comments from an outside researcher.

SAN FRANCISCO (GenomeWeb) – By sequencing the immune repertoires of more than 600 individuals, Adaptive Biotechnologies was able to identify a set of T cell receptor sequences associated with cytomegalovirus exposure. Those T cell receptor sequences were present at elevated levels in individuals exposed to the virus and absent in those who were not exposed.

Get the full story with
GenomeWeb Premium

Only $95 for the
first 90 days*

GenomeWeb Premium gives you:
✔ Full site access
✔ Interest-based email alerts
✔ Access to archives

Never miss another important industry story.

Try GenomeWeb Premium now.

You may already have institutional access!

Check if I qualify.

Already a GenomeWeb or 360Dx Premium member?
Login Now.

*Before your trial expires, we’ll put together a custom quote with your long-term premium options.

Not ready for premium?

Register for Free Content
You can still register for access to our free content.

A genomic analysis of modern and ancient maize reveals a complicated domestication history, according to Reuters.

In PLOS this week: MYRF variant linked to congenital diaphragmatic hernia, analysis of the "dragon's blood" red resin produced by traditional medicine plants, and more.

CNBC reports that half of academic researchers leave after about five years.

Researchers have used genetic analysis to confirm a new type of salamander, the New York Times reports.

Jan
30
Sponsored by
Loop Genomics

This webinar will provide a comparison of several next-generation sequencing (NGS) approaches — including short-read 16S, whole-genome sequencing (WGS), and synthetic long-read sequencing technology — for use in microbiome research studies.

Jan
30
Sponsored by
Loop Genomics

This webinar will provide a comparison of several next-generation sequencing (NGS) approaches — including short-read 16S, whole-genome sequencing (WGS), and synthetic long-read sequencing technology — for use in microbiome research studies.

Jan
31
Sponsored by
Roche

This webinar highlights the use of single-cell genomics to identify distinct cell types and states associated with enhanced immunity.