game, cell & molecular biology, developmental biology
Image of the Day: Swiss Army Crustacean
Image of the Day: Swiss Army Crustacean
The Scientist Staff | May 2, 2018
The tools researchers used to study how this amphipod’s limbs develop could help inform our understanding of cell lineages and fates.
Researchers Turn to Implantable Robots to Regenerate Tissue
Researchers Turn to Implantable Robots to Regenerate Tissue
Shawna Williams | May 1, 2018
The devices, which could one day treat children with esophageal atresia and short bowel, were recently tested in pigs.
Colorblindness Study Reveals Unexpected Way to Make Blood Vessels
Colorblindness Study Reveals Unexpected Way to Make Blood Vessels
Ashley Yeager | May 1, 2018
Researchers stumbled across the connection while searching for ways to reduce vision problems in people with achromatopsia.
Infographic: Piecing the Cholesterol Puzzle
Infographic: Piecing the Cholesterol Puzzle
Diana Kwon | May 1, 2018
How a rare disease led to an understanding of the basics of cholesterol regulation.
Trailblazing Endocrinologist Neena Schwartz Dies
Trailblazing Endocrinologist Neena Schwartz Dies
Kerry Grens | Apr 27, 2018
The reproductive biologist uncovered hormones important for fertility cycles.
Studies Show How Cells Differentiate at Life’s Beginning
Studies Show How Cells Differentiate at Life’s Beginning
Shawna Williams | Apr 27, 2018
A trio of papers provide new insight into embryo development.
Worms’ Magnetic Sense Questioned
Worms’ Magnetic Sense Questioned
Abby Olena | Apr 25, 2018
Unsuccessful attempts to reproduce the results of a 2015 study reporting that C. elegans orient themselves by Earth’s magnetic field spark debate among researchers.
Image of the Day: Nanobot Schematic
Image of the Day: Nanobot Schematic
The Scientist Staff | Apr 13, 2018
A magnetically controlled device could have applications in studies of cell biology and biophysics.
Image of the Day: Cell Droplets
Image of the Day: Cell Droplets
The Scientist Staff | Apr 4, 2018
Proteins and RNA aggregate into “membraneless organelles” due to liquid-liquid phase separation.
Perineuronal Nets: A Mechanism to Control Brain Plasticity
Perineuronal Nets: A Mechanism to Control Brain Plasticity
Daniela Carulli | Apr 1, 2018
The neuronal coverings that mediate synaptic changes are involved in everything from memory to psychiatric disorders, affecting autism, Alzheimer’s, and addiction.