Browse our latest Structural Biology and Molecular Biophysics articles

The ability to follow single objects in 3D in a living organism with high spatiotemporal resolution opens new possibilities for quantitative biophysical studies of complex systems in their physiological context.

Mass spectrometry analysis of purified pre-ribosomal RNAs shows that stable ribosomal RNA domains independently recruit assembly factors, and the cryo-EM structure of the 5' ETS ribonucleoprotein reveals regulatory conformational switches.

Cryo-electron microscopy reveals interactions at the interface between adeno-associated virus and its cellular receptor at 2.4Å resolution.

Two phosphorylation sites on 53BP1 are found to mediate interaction with TOPBP1-RAD9 and shown to be essential for assembling the G1 DNA damage checkpoint response apparatus.

The C2-domain of cytoplasmic phospholipase A₂α is structurally designed to target PC-rich membrane regions to increase the enzymatic efficiency of the catalytic domain, which prefers PCs with polyunsaturated acyl chains.

Ligand-induced two-fold symmetric arrangement in TRPV2 is observed in the native-like nanodisc-reconstituted condition using cryo-electron microscopy.

C-terminal domain of thermoTRPV channels regulates channel gating at the cytoplasmic interface through a switch-like process.

Structural and biochemical analysis reveals that two intrinsically disordered domains of the transcription factor FoxM1 co-fold to form an autoinhibited conformation, which is disrupted by a specific activating phosphorylation event.