The potential for these kinds of machines to reshape computer processing, increase energy efficiency, and revolutionize ...

A team of NYU chemists and physicists are using cutting-edge tools—holographic microscopy and super-resolution imaging—to unlock how cells build and grow tiny, dynamic droplets known as biomolecular ...

The brain is one of the body’s most energy-demanding organs, accounting for 2 percent of the body’s weight but consuming 20 ...

Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible?

Mitochondria made cells social, binding them in a contract whereby the survival of each cell depends on every other one, and thus made us possible.

Additionally, we assessed immune cell infiltration via the CIBERSORT algorithm and investigated the relationship between infiltrating immune cells and HOXC6 expression. Finally, we performed in vitro ...

The film explores the concept of electricity, demonstrating how it can be generated through simple experiments such as rubbing different materials together. It explains the basics of electric ...

Parse Biosciences today announced the first single cell RNA sequencing kits to profile 5 million cells and 384 samples in a single run.

In order to quickly plan the shortest path for mobile robot in two-dimensional space, a two-stage obstacles avoidance path planning algorithm based on cellular automata was presented in this paper.

The experiment aims to collect data for a study that examines how a type of immune cell, T cells, are affected by microgravity. Professor Lisa Westerberg discusses the experiment.

Parse Biosciences, a leading provider of accessible and scalable single cell sequencing solutions, today announced the launch of the Parse GigaLab™ to ...