Browse our latest Biochemistry and Chemical Biology articles

Biochemical analysis reveals molecular mechanisms underlying the activation of the mitochondrial Ca²⁺ uniporter by intracellular Ca²⁺ signals.

Investigations of binding of the scaffold protein PICK1 to transmembrane proteins in their native membrane environment demonstrate potent but slow dynamics and reveal distinct binding modes supporting different biological functions.

Cryo-EM structures of the gating cycle of bestrophin reveal the molecular underpinnings of activation and inactivation gating in this calcium-activated chloride channel and reveal a surprisingly wide pore.

Biochemical reconstitution of deadenylation and analysis of binding kinetics reveals how RNA-binding proteins select their mRNA targets.

A new optical tweezers assay sheds light on the mechanism of cooperation and force generation by the subunits of RecBCD, critical for the repair of double strand breaks in bacteria.

Biochemical analyses of transcription complexes, including kinetic studies and probes of translocational and conformational states, establish the elemental mechanism of pausing, which underlies regulation of gene expression in all organisms.

The atomic structure of GtACR1 provides new insight into the chemical mechanism of natural light-gated anion membrane conductance, and enables its optimization for optogenetic photoinhibition of neuron firing.