Protein condensates unfold G-quadruplex resembling a helicase activity.

Membrane-less organelles, formed by liquid-liquid phase separation, participate in many vital cellular processes and have received extensive attention recently. A notable form of noncanonical nucleic acid secondary structure, G-quadruplex (G4), interacts with the scaffolding proteins in these membrane-less organelles and becomes an integral part of this condensed phase. However, the structure and stability features of the integrated G4 remain poorly characterized. Herein, we employed NMR along with other biophysical methods to investigate the conformation of a G4 within condensates formed by a disordered protein known as DDX4N1. We discovered that the human telomeric sequence MHT24, which forms a G4 structure in a non-condensed phase solution of protein DDX4N1, unfolds when it is within DDX4N1 condensates due to phase separation. Our findings provide an instance of a protein acquiring new functionality through phase separation process, which deepen our understanding of how protein condensates regulate G4 structure and their functions.