Explore how oligonucleotides are reshaping therapeutics, diagnostics and CRISPR with rapid, scalable and personalized ...

From CRISPR to gene banking, synthetic biology has big implications for wildlife evolution and conservation, but ethical ...

Our experiences leave traces in the brain, stored in small groups of cells called engrams. Engrams are thought to hold the ...

Historically, turning invisible was considered the stuff of wizardry and spells. More recently, physicists have also looked ...

In many cells of the human body, hair-like protrusions known as cilia act as antennae, allowing cells to receive signals from ...

One of the most revolutionary tools in cutting-edge medicine is a molecular scalpel so precise that it can modify defective DNA and fix genetic diseases like sickle cell anemia, and chronic disorders ...

The CRISPR gene editing technology has transformed the research lab, and this powerful tool is now making its way into the clinic. So far, three different human diseases have been successfully treated ...

Scientists at City University of Hong Kong have cracked the code to identify ‘passwords’ needed to unlock the full potential of CRISPR, the revolutionary gene-editing "molecular scalpel" that can fix ...

We are now in the second great wave of the genetic revolution, not defined by reading the human code of life, but by rewriting it.

Explore opportunities in protein engineering to innovate therapeutic and industrial applications. Enhance your skills in molecular biology and protein chemistry to develop cutting-edge protein-based ...

Stem cells hold a tremendous amount of research promise. At one time, obtaining them seemed to be a nearly insurmountable challenge, until a process was invented by Gladstone Senior Investigator ...