New mechanisms discovered that show how development-dependent disruptions in mitochondrial function lead to premature skeletal aging.

This valuable study introduces a self-supervised machine learning method to classify C. elegans postures and behaviors directly from video data, offering an alternative to the skeleton-based ...

Nature has developed a unique structure as a scaffold for almost all nerve cells: the membrane-associated periodic skeleton ...

Discover how magnesium and phosphorus support bone strength, muscle function, and energy production. Learn ideal food sources ...

An interdisciplinary research team led by Professor Dr. Bent Brachvogel has examined how mitochondria influence the premature ...

Journey with us as we explore the fascinating and sometimes unsettling processes that occur after death. From the immediate ...

Now, a breakthrough study led by Chester has revealed the most complete skeleton of the species ever discovered. This find offers valuable information about the animal’s physical structure, how it ...

A new report by VTT Technical Research Center of Finland, Natural Resources Institute Finland, and the University of Helsinki has investigated the state of cellular agriculture in the country. At the ...

To better understand the structure-function relationship of a tissue, the concept of tissue cellular neighborhoods (TCNs) or spatial domains as well as their identification tools have been proposed.

These hallmarks include the enhanced formation of membrane-bound structures called autophagosomes, which engulf cellular materials to degrade them, as well as upregulated expression of autophagy ...

A neuron extends an axon to make contact with other neurons. A team of more than 100 scientists recorded the cellular activity and mapped the structure in a cubic millimeter of a mouse’s brain ...