adult stem cells, culture, developmental biology
Book Excerpt from <em>Swearing is Good for You</em>
Book Excerpt from Swearing is Good for You
Emma Byrne | Jan 23, 2018
In chapter 1, “The Bad Language Brain: Neuroscience and Swearing,” author Emma Byrne sets the scene for her book by telling the story of the hapless and potty-mouthed Phineas Gage.
Image of the Day: See You Later!
Image of the Day: See You Later!
The Scientist Staff | Jan 8, 2018
Developmental biologists take a close look at how alligator embryos grow. 
Why Swearing and Pain Go Hand in Hand
Why Swearing and Pain Go Hand in Hand
Emma Byrne | Jan 1, 2018
Screaming obscenities when you stub your toe makes perfect biological sense.
David Julius Probes the Molecular Mechanics of Pain
David Julius Probes the Molecular Mechanics of Pain
Anna Azvolinsky | Jan 1, 2018
For nearly 30 years, the UC San Francisco researcher has delved into unexplored corners of the nervous system.
Ten-Minute Sabbatical
Ten-Minute Sabbatical
The Scientist Staff | Jan 1, 2018
Take a break from the bench to puzzle and peruse.
Contributors
Contributors
Jef Akst and Katarina Zimmer | Jan 1, 2018
Meet some of the people featured in the January 2018 issue of The Scientist.
Swearing Off Pain
Swearing Off Pain
The Scientist Staff | Dec 31, 2017
Author Emma Byrne runs down the benefits of cursing, among them an enhanced ability to withstand pain.
Can Young Stem Cells Make Older People Stronger?
Can Young Stem Cells Make Older People Stronger?
Shawna Williams | Dec 11, 2017
Small trials using younger donors and elderly recipients hint that mesenchymal stem cell transfers might reduce frailty. 
University of Rochester Faces Lawsuit for Mishandling Sexual Harassment Case
University of Rochester Faces Lawsuit for Mishandling Sexual Harassment Case
Shawna Williams | Dec 11, 2017
The nine plaintiffs allege the university’s actions put women at risk.
Thousands of Mutations Accumulate in the Human Brain Over a Lifetime
Thousands of Mutations Accumulate in the Human Brain Over a Lifetime
Ruth Williams | Dec 7, 2017
Single-cell genome analyses reveal the amount of mutations a human brain cell will collect from its fetal beginnings until death.