Imagine the magnificent glaciers of Greenland, the eternal snow of the Tibetan high mountains, and the permanently ice-cold ...

Specialized structure, dubbed a “hemifusome” by University of Virginia School of Medicine and the National Institutes of ...

Findings suggest probiotics could mitigate ovarian decline and improve microbiota in POI mice, paving the way for new ...

At the heart of our cells, a previously unknown structure has just been identified, shedding new light on essential ...

Stanford researchers discovered that dialing down an overactive enzyme, LRRK2, can regrow lost cellular “antennae” in key ...

The UCLA advance opens the door to growing other vascularized organ models, including intestines and colons, providing ...

A team of researchers from APL and the Johns Hopkins Bloomberg School of Public Health is developing next-generation brain organoid platforms to better understand the effects of mild blast-induced ...

This useful study presents a biologically realistic, large-scale cortical model of the rat's non-barrel somatosensory cortex, investigating synaptic plasticity of excitatory connections under varying ...

This article makes a valuable contribution to the field by uncovering a molecular mechanism for miRNA intracellular retention, mediated by the interaction of PCBP2, SYNCRIP, and specific miRNA motifs.

Natural products industry companies share overviews on the latest science on their dietary supplement branded ingredients and ...

University of Virginia scientists discover new cell organelle called "hemifusome" that helps manage cellular recycling.

Even after decades of research, biologists are still uncovering surprises about the human body. A team of researchers from ...