schizophrenia, genetics & genomics
Effects of Neanderthal DNA on Modern Humans
Effects of Neanderthal DNA on Modern Humans
Ruth Williams | Oct 5, 2017
A new study reveals how Neanderthal DNA in the genomes of present-day British people influences their traits.
Q&A with Michael Young, Nobel Laureate
Q&A with Michael Young, Nobel Laureate
Ashley P. Taylor | Oct 2, 2017
Young talks with The Scientist about studying circadian rhythms in fruit flies, the applications of his work beyond Drosophila, and winning the prize. 
Q&A with Nobel Laureate Michael Rosbash
Q&A with Nobel Laureate Michael Rosbash
Ashley Yeager | Oct 2, 2017
A basic curiosity about how life works led the Brandeis University molecular biologist to discover how our bodies keep time. 
Nonviral CRISPR Delivery a Success
Nonviral CRISPR Delivery a Success
Abby Olena | Oct 2, 2017
Researchers use gold nanoparticles to deliver CRISPR-Cas9 and correct a point mutation in a mouse model of Duchenne muscular dystrophy. 
Meet the Transgenic Silkworms That Are Spinning Out Spider Silk
Meet the Transgenic Silkworms That Are Spinning Out Spider Silk
Catherine Offord | Oct 1, 2017
Researchers explore genetic engineering to produce super-tough fibers.
Damage Patroller
Damage Patroller
Anna Azvolinsky | Oct 1, 2017
Stephen Elledge has built a career studying how eukaryotic cells maintain genomic integrity.
Watch This Biofilm
Watch This Biofilm
The Scientist Staff | Sep 30, 2017
Researchers encoded moving images in DNA within living cells.
Spider Silk
Spider Silk
The Scientist Staff | Sep 30, 2017
Kraig Biocraft Laboratories has genetically engineered a silkworm to spin spider silk, which might be used for futuristic products.
Book Excerpt from <em>Rise of the Necrofauna</em>
Book Excerpt from Rise of the Necrofauna
Britt Wray | Sep 30, 2017
In chapter 4, “Why Recreate the Woolly Mammoth?” author Britt Wray explores the social consequences of bringing an iconic species back from extinction.
Technique Adapted from CRISPR-Cas9 Corrects Mutation in Human Embryos
Technique Adapted from CRISPR-Cas9 Corrects Mutation in Human Embryos
Catherine Offord | Sep 28, 2017
Researchers use base-editing to swap out an erroneous nucleotide responsible for a potentially life-threatening blood disorder.