immunology, evolution, genetics & genomics
Forensics 2.0
Forensics 2.0
Bob Grant | Jan 1, 2017
Meet the researchers working to untangle the mystery of a Missouri home filled with bones by bringing cutting-edge technologies into the crime lab.
Infographic: Examining Open Chromatin
Infographic: Examining Open Chromatin
Ruth Williams | Dec 31, 2016
See how researchers visualize regions of active genes.
Infographic: Keeping RNA Structures in Line
Infographic: Keeping RNA Structures in Line
Catherine Offord | Dec 31, 2016
Scientists find fewer RNA G-quadruplexes in vivo than in vitro.
More Anti-CRISPR Proteins to Block Cas9
More Anti-CRISPR Proteins to Block Cas9
Kerry Grens | Dec 29, 2016
The latest CRISPR deactivators to be discovered turn off the Streptococcus pyogenes Cas9 widely used in genome editing.
Fruit Bats Argue Using Nuanced Communication
Fruit Bats Argue Using Nuanced Communication
Ben Andrew Henry | Dec 29, 2016
Audio recordings of bats hashing out disputes reveals that their calls are laden with information about identity and intent.
Exome Study Reveals Novel Disease-Linked Alleles
Exome Study Reveals Novel Disease-Linked Alleles
Anna Azvolinsky | Dec 22, 2016
By combining whole-exome sequencing data with longitudinal electronic health record information for 50,000 individuals, researchers have identified novel disease associations.
New Species of 2016
New Species of 2016
Jef Akst | Dec 16, 2016
From a new Tyrannosaurus and many other dinosaurs to all of the living species named this year, researchers continue to chip away at the planet’s unknown biodiversity.
Slideshow: New Species of 2016
Slideshow: New Species of 2016
Jef Akst | Dec 16, 2016
A look at some of the species named this year
Mouse Immunology Paper Retracted
Mouse Immunology Paper Retracted
Jef Akst | Dec 16, 2016
A finding of misconduct spurs the retraction of a Science paper claiming to have identified a protein in mice that boosted immunity to both viruses and cancer.
Keeping CRISPR in Check
Keeping CRISPR in Check
Anna Azvolinsky | Dec 14, 2016
In bacteriophage genomes, researchers find three anti-CRISPR proteins that naturally inhibit CRISPR-Cas9 in one bacterial species and can do the same in human cells.