A recent study, led by Professor Wu (Wenzhou Institute University, Wenzhou Medical University) and Professor Huang (Northeastern University), explores liquid–liquid phase separation (LLPS), a ...

Liquid-liquid phase separation is not a precursor to formation of amyloid fibrils, a pathological hallmark of Parkinson's disease, shows study. Rather, the formation of protein into liquid droplets ...

Crystallization is a well-explored natural phenomenon where atoms or molecules arrange themselves into highly organized solid forms called crystals. This phenomenon has been widely utilized across ...

Understanding the intricate interactions governing protein and peptide behavior in liquid–liquid phase separation (LLPS) is crucial for unraveling biological functions and dysfunctions. This study ...

Many studies try to comprehend and replicate the natural silk spinning process due to its energy-efficient and eco-friendly process. In contrast to spider silk, the mechanisms of how silkworm silk ...

Cells buzz with millions of different biomolecules that diffuse chaotically through their substructures, yet they manage to ensure exquisite functional and spatial specificity. Distinct biomolecules ...

LLPS as a rising molecular entity in the cytoplasm regulates diseases progression via a variety of ways. For example, the relationship between LLPS and cancer can be summarized into six aspects: gene ...