Arterial stenosis, the narrowing and stiffening of arteries common in atherosclerosis, can alter the transport of elastic ...

An international research team from Bielefeld University and the Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP) has uncovered a previously unknown regulatory mechanism in human cells.

Scientists have built atom-sized pores that act like living ion channels, opening the door to next-generation nanotech.

Liquid electrolytes enable fast ion transport but can raise safety concerns, and lithium metal anodes—despite their high capacity—can grow dendrites that trigger short circuits and rapid failure.

Peptide conjugation techniques are advancing CNS delivery of oligonucleotides, addressing blood-brain barrier challenges and ...

Diffusion-limited resins, the time-tested workhorse of protein purification, are fundamentally incompatible because mRNA is an enormous (>40 nm) molecule with low diffusivity (10−11–10−12 m2/s). Our ...

Scientists have long sought to explain a key mismatch in Earth's early history: oxygen-producing photosynthesis evolved ...

One strange marsh plant can keep itself near room temperature even in freezing weather. Here’s the biology behind its ...

Living Water replaces plastic jugs with 4-stage reverse osmosis to eliminate microplastics and injury risks for Sonoma, ...

Researchers identified TBC1D9B as the off switch for ARL8B, a key regulator of lysosome positioning. This mechanism controls how cells adapt to nutrient stress and maintain metabolic balance.

Despite their potential, solid-state batteries struggle to replace lithium-ion due to manufacturing hurdles and performance ...

Gilead HPI licensing adds $35M now + $330M milestones; Phase 2 starts by 2026; strong cash runway. Click for this ASMB update ...