Xinning Zhang and Ashley Maloney discovered that a geology technique shows promise in detecting cancer-like cells. If their ...

Understanding the behavior of tiny droplets in our cells could aid the search for new treatments. A team of Leiden ...

The human body is a key subject of research by scientists worldwide. A biomedical engineering research team led by Professor ...

Landmark single-cell dataset of one billion cells will be used to train new AI models to advance understanding of cellular ...

Rhobo6, a light microscopy probe, gives scientists an unprecedented look at the extracellular matrix -- the collection of organized molecular structures that fills the spaces between cells in our ...

Using a novel deep learning approach, we evaluated the predictive power of the functional connectome during various states (resting state, movie-watching, and n-back) on episodic memory and working ...

In a breakthrough for the advanced study of gut health, scientists have developed a 3D microscopic version of the human intestines condensed into a small chip about half the size of a five-cent coin.

Figure 1: Mitochondrial involvement in cell death. Mitochondria are organelles ... The ΔΨ results from the respiration-driven, electron-transport-chain-mediated pumping of protons out of the ...

Most life on Earth depends upon plants for energy. Plants capture light from the sun and use it to build up chemical stores of energy. This is called photosynthesis. The basic structure of a plant ...

A review of human heart models—cardiac organoids and organ chips—showed that each method has unique advantages in different research contexts, including cardiac disease modeling and drug development.

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