forthcoming articles

Two investigated DNA 18-mers indicate dynamic equilibrium of conformations in solution and crystallize as duplexes with two consecutive T-T mismatches. Neither these mismatched nucleotides nor the other found in PDB exhibit unique structural features compared to Watson-Crick paired ones.

The 1.7 Å resolution crystal structure of peroxisomal multifunctional enzyme type 1 (MFE1) shows a conformation in which both catalytic sites are noncompetent. The analysis of the structures of the complexes with 3-ketodecanoyl-CoA suggests how the conformational flexibility of MFE1 could be important for its function.

Structural studies on glycoproteins are often complicated by glycan complexity. Here, it is shown that the GlycoDelete HEK cell line enginered to produce glycan stumps produces homogeneous glycoproteins that are ideal for crystallogenesis and other structural studies.

Artificial multifunctional polypeptide constructs (modular nanotransporters, MNTs) have great potential in the treatment of various diseases, particularly cancer. In this study, a 3D low-resolution structure of an MNT in solution was obtained by atomic force microscopy, transmission electron microscopy and small-angle X-ray scattering coupled to size-exclusion chromatography methods.

A novel three-residue tag containing the residues GHK that can be used to promote crystallization and in SAD phasing experiments using its tightly bound copper ion.

Virtual reality-specific tools for model building are possible, and can provide an order-of-magnitude speedup over mouse-and-keyboard tools in certain situations.

The geometry of arginine shows more complexity than is accommodated by the standard restraints.

This article provides an in-depth analysis of structural aspects of the heme-bound structure of indoleamine 2,3-dioxygenase 1 with a complete refined JK-loop (the overall crystal structure, the quality of the structure, the dimerization interfaces and an analysis of the JK-loop conformation) followed by a molecular-dynamics study of the influence of heme occupation on the conformation of the JK-loop.

AjiA1 is an adenylate-forming enzyme (AFE) family member that catalyzes the condensation of two molecules of 3-hydroxyanthranilic acid using ATP as a co-substrate. The structure of AjiA1 in its apo form was solved and revealed key conformational changes, including an unusual loop swapping, suggesting that it should be classified into a new AFE subgroup.

Shift-field refinement is an approach to the refinement of a model against a set of structure-factor observations which is not tied to an underlying atomic parameterization. The performance of the method is evaluated for the refinement of positional parameters over a set of 452 molecular-replacement problems.

The implementation of quantum-based real-space refinement in qr.refine is described.