Intrinsically disordered protein regions exist in a collection of dynamic interconverting
conformations that lack a stable 3D structure. These regions are structurally heterogeneous …

Accurate predictions of the three-dimensional structures of proteins from their amino acid
sequences have come of age. AlphaFold, a deep learning-based approach to protein …

Intrinsically disordered protein regions (IDRs)-regions that do not fold into a fixed three-
dimensional structure but instead exist in a heterogeneous ensemble of conformations-have …

Intrinsically disordered proteins and protein regions make up a substantial fraction of many
proteomes in which they play a wide variety of essential roles. A critical first step in …

Biomolecular condensates formed via phase separation of proteins and nucleic acids are
thought to be associated with a wide range of cellular functions and dysfunctions. We dissect …

Aberrant phase separation of globular proteins is associated with many diseases. Here, we
use a model protein system to understand how the unfolded states of globular proteins drive …

Huntington's disease is a neurodegenerative disorder caused by a CAG expansion in the
first exon of the HTT gene, resulting in an extended polyglutamine (poly-Q) tract in huntingtin …

Phase separation is thought to underlie spatial and temporal organization that is required for
controlling biochemical reactions in cells. Multivalence of interaction motifs, also known as …

A long-standing goal of amyloid research has been to characterize the structural basis of the
rate-determining nucleating event. However, the ephemeral nature of nucleation has made …

Liquid–liquid phase separation has drawn attention as many neurodegeneration or cancer-
associated proteins are able to form liquid membraneless compartments (condensates) by …