The speed at which a cell produces proteins is a decisive factor in determining whether it divides, specializes or retains ...
A new CRISPR-based method increases protein production in a targeted manner, bringing new insights to stem cell biology and ...
Researchers from Heinrich Heine University Düsseldorf (HHU) have—in collaboration with colleagues from Ludwig Maximilian ...
Discover SpudCell, the synthetic cell created from lifeless chemicals that eats, grows, and reproduces, bringing us closer to ...
When a lipid component was added to a solution containing DNA, proteins, and ribosomes, it spontaneously formed a spherical ...
Synthetic cell SpudCell, the first built from non-living components by University of Minnesota synthetic biologists Kate ...
This cell-like structure can grow, feed, divide and compete. Researchers ponder what it means for the future of synthetic ...
A tiny bubble of lipids, enzymes and DNA has done something biologists have chased for years: it carried out a full cycle of ...
The human-made cells show many hallmarks of life, but they can't make all their necessary internal structures or divide for ...
Scientists have created the world’s first man-made cell that can eat, grow and reproduce. Called SpudCell, it is the work of ...
A study shows Bacillus subtilis balances growth and survival by slowing growth under stress, increasing antibiotic tolerance.
University of Minnesota researchers created SpudCell, the first bottom-up synthetic cell that feeds, grows, replicates DNA and divides.