forthcoming articles

We report high-resolution structures of the ZIKA virus (strain MR766) methyltransferase and helicase proteins.

The structure of the Pfp1 intracellular protease from Thermococcus thioreducens was solved in two crystal forms, one showing it to be a hexamer, and the other a dodecamer. Subunits are disulfide-linked in pairs and the very closely juxtaposed catalytic triads are formed across an interface with amino acids contributed by two separate subunits.

A single three-dimensional protein nanocrystal was used for structure determination using electron diffraction. Data were acquired using the rotation method with a Timepix hybrid pixel detector for low-dose data acquisition.

The structure of CheR1 in complex with c-di-GMP-bound MapZ is reported and the complex biochemical process which involves CheR1, MapZ, SAH/SAM and c-di-GMP is revealed.

Hydroxycitrate was co-crystallized with the amino-terminal portion of human ATP-citrate lyase in order to learn how this competitive inhibitor binds. Crystals diffracting to high resolution were obtained by adding cleavage sites in the protein to remove a disordered linker. This strategy could be useful for other proteins that do not crystallize well.

An overview of current crystallographic model validation of protein and RNA, both foundations and criteria, at all resolution ranges is provided, together with advice on how to correct specific types of problems, and on when you should not try so hard that you are overfitting.

AUSPEX is a new software tool for the statistical analysis of single-crystal X-ray diffraction data. It can be used to identify problems in the data resulting from the experiment itself, image processing, data scaling or conversion.

An in-depth analysis of the PEG-bound C-terminal SH3 domain of myosin IB from E. histolytica has been performed, which reveals the mode of ligand recognition and will be helpful in the identification of probable binding partners of E. histolytica myosin IB.

This paper reviews the recent advances in computational template-based structural modelling and proposes the subclustering of protein domain superfamilies to guide the template-selection process.

The applicability of the ligand-soaking method in serial femtosecond crystallography has been examined to examine the feasibility of pharmaceutical applications of X-ray free-electron lasers.

The nucleoprotein of Toscana virus forms mainly open fivefold oligomers consistent with the encapsidation mechanism of phlebovirus RNA both in solution and under physiological conditions.

The crystal structure of the class D carbapenemase OXA-143 from A. baumannii shows that a conserved valine residue on the protein surface controls access of the deacylating water molecule to the active site of the enzyme. Analysis of the structures of other class D carbapenemases implicates movement of juxtaposed surface valine and leucine residues in a universal deacylation mechanism for these enzymes.

The effect of ion swapping on the activity of an Arenaviridae exonuclease is reported.