statistics, developmental biology, cell & molecular biology
Image of the Day: Actin Burst
Image of the Day: Actin Burst
The Scientist Staff | Dec 6, 2017
Researchers are looking at actin polymerization and calcium uptake in human cells to study mitochondrial division.
Passing the Torch
Passing the Torch
Mary Beth Aberlin | Dec 1, 2017
Looking back, looking forward
Researchers Make Knockout Stem Cell Lines in One Step
Researchers Make Knockout Stem Cell Lines in One Step
Ruth Williams | Dec 1, 2017
Combining gene editing and stem-cell induction improves efficiency of functional genetic analyses.
Captivated by Chromosomes
Captivated by Chromosomes
Anna Azvolinsky | Dec 1, 2017
Peering through a microscope since age 14, Joseph Gall, now 89, still sees wonder at the other end.
Neslihan Taş Studies Permafrost Microbes as They’re Roused by a Warming Climate
Neslihan Taş Studies Permafrost Microbes as They’re Roused by a Warming Climate
Shawna Williams | Dec 1, 2017
The Lawrence Berkeley National Laboratory researcher’s work will help predict how the Arctic is responding to climate change—and the global effects of those changes.
New Techniques Detail Embryos’ First Hours and Days
New Techniques Detail Embryos’ First Hours and Days
Jef Akst | Dec 1, 2017
New technologies reveal the dynamic changes in mouse and human embryos during the first week after fertilization.
In Situ Hybridization Explained
In Situ Hybridization Explained
The Scientist Staff | Nov 30, 2017
Profilee Joseph Gall of the Carnegie Institute describes the process, which he developed in the 1960s.
Infographic: Combo Method of Stem Cell Generation
Infographic: Combo Method of Stem Cell Generation
Ruth Williams | Nov 30, 2017
Simultaneous exposure to reprogramming and gene-editing plasmids efficiently produces edited pluripotent colonies.
Infographic: How Embryos Take Control of Their Own Development
Infographic: How Embryos Take Control of Their Own Development
Jef Akst | Nov 30, 2017
The switch from maternal factors involves dynamic reprogramming of the zygotic genome.
Partial Reprogramming Offers a Way to Generate High Volumes of Progenitor-Like Cells
Partial Reprogramming Offers a Way to Generate High Volumes of Progenitor-Like Cells
Abby Olena | Nov 30, 2017
Activating genes for reprogramming factors for a short time transforms large numbers of differentiated cells into multipotent forms that could be useful for cell-based therapies.