Sechenov University Rector Petr Glybochko said the institution is the only medical university in Russia to have completed the entire translational pathway, from fundamental research to certified ...

The constant, energy-driven motion inside living cells may generate electricity in a way no one fully recognized before.

In its effort to correlate genomic structure with gene function, the 4D Nucleome Consortium (4DN), led by Job Dekker, Ph.D., ...

Inside every living cell, proteins and membranes are in constant motion, reshaping, colliding, and flexing as they keep an ...

Cells do more than carry out chemical reactions. New theoretical work suggests they may also generate usable electrical energy through constant motion in their membranes, offering a fresh way to think ...

The National Testing Agency (NTA) has issued the subject wise NEET 2026 syllabus on this website soon after the NMC released ...

Transverse tubules (T-tubules) play significant role in muscle contraction. However, the underlying mechanism of their ...

Nucleosomes are barriers to RNA Polymerase II (Pol II) transcribing along gene bodies in eukaryotes. We found that a fragile “tailless nucleosome” could be generated to resolve the Pol II pausing ...

Flexoelectricity, which can transform mechanical deformation into electrical signals, could provide enough power to fire ...

This is an important study on the sensory roles of Cerebrospinal fluid-contacting neurons (CBF-cn) in mammals. The authors identify PKD2L1 as the predominant pH-sensing channel CBF-cn and show how the ...