bioRxiv
Most Recent
bioRxiv
Dissecting the phase separation and oligomerization activities of the carboxysome positioning protein McdB
bioRxiv
Interplay between charge distribution and DNA in shaping HP1 paralog phase separation and localization
bioRxiv
The variable domain from the mitochondrial fission mechanoenzyme Drp1 promotes liquid-liquid phase separation
bioRxiv
Biomolecular condensates of Chlorocatechol 1,2-Dioxygenase as enzymatic microreactors for the degradation of polycyclic aromatic hydrocarbons
bioRxiv
Fluorescent protein lifetimes report increased local densities and phases of nuclear condensates during embryonic stem cell differentiation
bioRxiv
Ripening and synchronization of biomolecular condensates in a heterogeneous elastic medium
May
30
Condensate Colloquium Series: Margaret Gardel & Konstanze Winkloher — May 30
Tuesday, May 30, 2023
Nature chemistry
Fibril formation and ordering of disordered FUS LC driven by hydrophobic interactions
bioRxiv
FUS Facilitates Gene Body Export from Nuclear Condensates
The journal of physical chemistry B
Crosslink-Induced Conformation Change of Intrinsically Disordered Proteins Have a Nontrivial Effect on Phase Separation Dynamics and Thermodynamics
bioRxiv
Single-Molecule FRET Illuminates Structural Subpopulations and Dissects Crucial Molecular Events During Phase Separation of a Prion-Like Low-Complexity Domain
Neurobiology of disease
Liquid – liquid phase separation of tau: Driving forces, regulation, and biological implications
Nature communications
Wetting and complex remodeling of membranes by biomolecular condensates
Nature structural & molecular biology
Intrinsic mesoscale properties of a Polycomb protein underpin heterochromatin fidelity
Biophysical journal
What’s past is prologue: FRAP keeps delivering 50 years later
Nucleus (Austin, Tex)
Transcriptional condensates and phase separation: condensing information across scales and mechanisms
Cell reports
Cellular uptake of nickel by NikR is regulated by phase separation
bioRxiv
Micelle-like clusters in phase-separated Nanog condensates: A molecular simulation study
Methods in molecular biology (Clifton, NJ)