forthcoming articles

The structure of aIF2γ in complex with GTPCP without Mg²⁺ ions in crystallization solution is determined and the new information about the role of Mg²⁺ ions in the function of aIF2ing is provided. The new functional region (switch 3) of the aIF2γ is discovered.

Crystal structures of the third PDZ domain of the neuronal postsynaptic density protein 95 lacking the third α-helix and protein variants D332P and D332G show conformational plasticity.

We have developed a method to combine quantum mechanical calculations and joint crystallographic refinement against X-ray and neutron data. Applications to structures of the galectin-3 C–lactose complex and lytic polysaccharide monooxygenase show that it can improve the geometry for water molecules, deuterium atoms and hydrogen bonds, as well as determine protonation states of key residues.

Cysteine proteases are among the most prominent hydrolytic enzymes produced by human distal gut commensal bacteria. Here, the first inactive zymogen structure of a clostripain-like C11 protease family member is reported from the bacterium P. distasonis.

The paper describes the structure solution of human IBA57; to our knowledge, this is the only structure present in the Protein Data Bank which has been solved in-house by remote SAD phasing in space group P1 using only one crystal.

Strategies for sample delivery of macromolecular crystals at X-ray free-electron lasers are reviewed, covering injection methods, fixed-target approaches and hybrid methods.

The solution of a structure of human Rab27a suffering from severe anisotropy and translational noncrystallographic symmetry was aided by identifying diffraction measurements with low information content.

Solution structures of complexes between human serum albumin and the two lipidated insulin analogues detemir and degludec are presented and models for the equilibria are suggested.

The heterododecameric complex of a reducing octaheme cytochrome c with its redox partner shows an extended electron-transfer pathway.