A framework for analyzing single-cell genomics data, in which geometrical properties are harnessed to obtain insights on cellular diversity, including precise clustering, clear visualizations, and ...
The human-made cells show many hallmarks of life, but they can't make all their necessary internal structures or divide for ...
In a study published in Science, USC researchers paired a biological discovery with an engineering feat to create more ...
Northwestern Medicine scientists have discovered that one of the body's most fundamental biological processes—how red blood ...
This cell-like structure can grow, feed, divide and compete. Researchers ponder what it means for the future of synthetic ...
A prototype cell partly capable of replicating itself has been created using 36 existing bacterial genes, but it's not really ...
The mechanical process of cell division exerts powerful, if microscopic, forces. How do the molecular machines that power it ...
Subpopulations of tumor cells characterized by mutation profiles may confer differential fitness and consequently influence prognosis of cancers. Understanding subclonal architecture has the potential ...
Biomaterials with extraordinary properties, such as spider silk, have so far been known primarily from animals. Researchers at the University of Salzburg in Austria have now deciphered a surprising ...
How does a single cell build a brain with billions of precisely organized neurons? Researchers suggest that brain cells use ...
What is Deep Learning (DL)? "Deep Learning is a subfield of machine learning concerned with algorithms inspired by the structure and function of the brain called artificial neural networks." There are ...
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