forthcoming articles
The following articles are a selection of those recently accepted for publication in IUCr journals.
![]() | Acta Crystallographica Section A Acta Crystallographica Section A FOUNDATIONS AND ADVANCES |

Uncertainties of recalculated bond lengths, angles and polyhedral volumes as implemented in the Crystal Palace program for parametric crystal structure analysis
Crystal Palace is a new Windows program for parametric analysis of least-squares and atomic coordination with estimated standard uncertainties. It allows the easy analysis of how crystal structures change with temperature, pressure or composition.

Topological coordination numbers and coordination reciprocity from electron-density distributions
An approach is presented to calculate topological coordination numbers and weighted sub-coordination scenarios obeying the principle of coordination reciprocity from solid angles subtended by the interatomic surfaces of electron density (QTAIM) atomic domains.


![]() | Acta Crystallographica Section B Acta Crystallographica Section B STRUCTURAL SCIENCE, CRYSTAL ENGINEERING AND MATERIALS |


The varying temperature- and pressure-induced phase transition pathways in hybrid improper ferroelectric Sr3Sn2O7
The phase transitions in Sr3Sn2O7 are studied crystallographically, illustrating both the hybrid improper ferroelectric mechanism that acts in this material and the varying response of the symmetry-breaking degrees of freedom with pressure and temperature.

![]() | Acta Crystallographica Section C Acta Crystallographica Section C STRUCTURAL CHEMISTRY |

Crystallographic studies of piperazine derivatives of 5,5-dimethylhydantoin in the search for structural features of α1-adrenoreceptors antagonists
Six 5,5-dimethylhydantoin derivatives were investigated towards the search for structural features responsible for affinity for α1-adrenoreceptors. Compounds with higher activity prefer an extended conformation, which leads to larger distances between the end aromatic rings, while for compounds with lower affinity, the distances between the end aromatic rings are shorter.

![]() | Acta Crystallographica Section D Acta Crystallographica Section D STRUCTURAL BIOLOGY |

Unique double-helical packing of protein molecules in the crystal of potassium-independent L-asparaginase from common bean
The crystal structure of potassium-independent L-asparaginase PvAIII, with a rare P2 space-group symmetry, shows an unusual pseudosymmetric 41-like double-helical packing with 32 protein chains in the asymmetric unit. The packing is determined by an extended intermolecular β-sheet, by incomplete degradation of the interdomain linker and by intermolecular `hydrogen-bond linchpins' that connect adjacent protein chains together.

Structures of α-galactosaminidases from the CAZy GH114 family and homologs defining a new GH191 family of glycosidases
Structural and functional analysis of a new fungal GH114 endo-α-1,4-galactosaminidase, along with homologs that establish a new GH191 family of glycoside hydrolases, are reported. In addition, various crystal pathologies led to the development of a new refinement procedure for disordered structures.

Robust error calibration for serial crystallography
We present a new error-calibration algorithm for reflection intensities in serial crystallography. We reformulate the mathematical basis of the problem and apply different levels of uncertainty to each observed lattice corresponding to its measurement accuracy. These uncertainties are more consistent with theoretical expectations than the Ev11 error-calibration algorithm previously implemented in cctbx.xfel.merge.

The crystal structure of an uncharacterized domain of P113 from Plasmodium falciparum
P113 is a membrane-anchored protein in Plasmodium falciparum that stabilizes the RH5 complex, facilitating erythrocyte invasion by interacting with the host receptor basigin. The helical-rich domain of P113 (residues 311–679) was crystallized, revealing a predominantly α-helical structure with two four-helix bundles and a disordered connecting region.

Structure of the Fab fragment of a humanized 5E5 antibody to a cancer-specific Tn-MUC1 epitope
The structure of the humanized Fab from murine monoclonal antibody 5E5 specific for tumor antigen Tn-MUC1 has been determined to 1.57 Å resolution. The humanization process has imposed changes in the framework regions of the Fv which may have affected the Vh–Vl interface.
![]() | Acta Crystallographica Section E Acta Crystallographica Section E CRYSTALLOGRAPHIC COMMUNICATIONS |

Synthesis and crystal structure study of (R,R)-TMCDA ethanol derivatives doubly protonated with FeCl4− and Cl− as counter-ions
The synthesis and structural characterization of the crystal forms of (R,R)-TMCDA and its ethanol derivative, both doubly protonated with FeCl4− and Cl− as counter-ions, are reported. A notable feature across both synthesized compounds is the presence of N—H⋯Cl hydrogen bonds of moderate strength in the solid state. In the case of the ethanol derivative of (R,R)-TMCDA, the structure also reveals the formation of intermolecular O–H⋯Cl hydrogen bonds.


Synthesis and crystal structure of 2-(2,4-dioxo-6-methylpyran-3-ylidene)-4-(4-hydroxyphenyl)-2,3,4,5-tetrahydro-1H-1,5-benzodiazepine
In the crystal, O—H⋯O and N—H⋯O hydrogen bonds link the molecules, enclosing R22(16) and R22(24) ring motifs, to generate [110] chains. Very weak π–π stacking interactions between the phenyl rings of adjacent molecules help to consolidate a three-dimensional architecture.


Crystal structure, Hirshfeld surface analysis and DFT studies of 4-amino-N′-[(1E)-1-(3-hydroxyphenyl)ethylidene]benzohydrazide
In the crystal structure of the title compound, C15H15N3O2, O—H⋯O and N—H⋯O hydrogen bonds lead to trhe formation of layers extending parallel to (010).
![]() | Acta Crystallographica Section F Acta Crystallographica Section F STRUCTURAL BIOLOGY COMMUNICATIONS |

Structure of the Saccharolobus solfataricus GINS tetramer
Archaeal organisms possess Cdc45 and GINS homologs that likely serve similar functional roles, but their structural interactions with the MCM helicase and hence their mechanism of MCM activation are not as well understood as the eukaryotic counterparts. We present the crystal structure of the Saccharolobus solfataricusGINS tetrameric complex and illustrate that a subdomain would need to move to accommodate known archaeal GINS complex interactions and to generate a SsoCMG complex analogous to that of eukaryotes.

Crystallization and initial X-ray crystallographic analysis of a de novo-designed protein with left-handed βαβ units
One or two sentences suitable for the Journal contents listing and use in promoting your article via social media. It should highlight the findings and significance of your work.

High-throughput protein crystallography to empower natural product-based drug discovery
High-throughput protein crystallography is used at the heart of a pipeline to accelerate the discovery of bioactive natural products by capturing hits directly from unpurified biota samples using protein crystals.
![]() | Journal of Applied Crystallography Journal of Applied Crystallography |

Structure factors of random hard disk packing in 2D by explicit modeling
Structure factors of randomly packed disks in 2D equivalent to parallel cylinders are given as a function of the area fraction. This structure factor can be used to interpret scattering features from densely packed fibrous systems.


Differences in hierarchical structural changes between unoriented P(3HB) and P(3HB-co-3HH) under stretching
The introduction of 3-hydroxyhexanoate (3HH) to the eco-friendly polymer poly[(R)-3-hydroxybutyrate] [P(3HB)] was found to reduce both the density fluctuations on the submicrometre scale and the stability of the crystals using in situ X-ray scattering, resulting in a reduction of the brittleness.



Linearization routines for the parameter space concept to determine crystal structures without Fourier inversion
The novel linearization routines within the parameter space concept (PSC) provide an alternative approach to determine one-dimensionally projected crystal structures from rather few diffraction intensities of standard Bragg reflections, represented by piecewise analytic hyper-surfaces, without the use of Fourier inversion. By the intersection of linearized isosurface segments of multiple reflections, the PSC accurately pinpoints the atomic coordinates and explores both homometric and quasi-homometric solutions in a single analysis.

![]() | Journal of Synchrotron Radiation Journal of Synchrotron Radiation |

P21.1 at PETRA III - a high energy x-ray diffraction beamline for physics and chemistry
A detailed description of the technical specifications of beamline P21.1 at the PETRA III extension is given. It serves as a reference for the beamline user community and possible experiments are motivated by a number of scientific examples.



Development of portable nanofocusing optics for X-ray free-electron laser pulses
A portable and compact nanofocusing system was developed for X-ray free-electron lasers with the ability to generate Zn Kα lasers with the world's highest photon energies on amplified spontaneous emission.




Current and future perspectives for structural biology at the Grenoble EPN campus: a comprehensive overview
This article provides details on the current status of the experimental techniques available at the ESRF–EBS and ILL research infrastructures. It describes major contributions made by the EMBL, ESRF, ILL and IBS to the structural biology field and includes future prospects at the EPN campus


Instrumentation and methods for efficient time-resolved X-ray crystallography of biomolecular systems with sub-10 ms time resolution
Methods and instrumentation for reaction initiation via mixing followed by rapid cooling allow sample-efficient time-resolved crystallographic studies with sub-10 ms time resolution. The instrumentation is robust, amenable to diverse samples, cost-effective, and enables remote collection of time-resolved X-ray data using standard sample supports and high-throughput cryocrystallography beamlines.


Accurate temperature dependence of structure factors of L-alanine and taurine for quantum crystallography
The temperature dependence of accurate structure factors of L-alanine and taurine was measured at the SPring-8 BL02B1 beamline. The quality of the structure factors was evaluated by charge density and quantum crystallographic studies. The effects of small amounts of twinning on the charge density study in taurine were also described.

Structure of ICE VII with Hirshfeld atom refinement
The crystal structure of cubo-ice (ice VII) has been established by single-crystal X-ray diffraction using both synchrotron and laboratory data collected at high pressure. X-ray diffraction data in both cases were refined with Hirshfeld atom refinement. Various structural models including those with `split' positions of atoms were refined.

Additive-driven microwave crystallization of tyramine polymorphs and salts: a quantum crystallography perspective
This study reveals how additives and microwave radiation influence the crystallization of new tyramine polymorphs and their cocrystallization with barbital. The findings provide insights into polymorph stability and offer potential applications in molecular encapsulation and optical materials.

The origin of synthons and supramolecular motifs: beyond atoms and functional groups
This study establishes that hydrogen-, halogen- and chalcogen-bonding intermolecular and non-covalent intramolecular interactions are driven by a face-to-face orientation of electrophilic (charge-depleted) and nucleophilic (charge-concentrated) regions, which is the origin of the specific geometries found in synthons and supramolecular motifs.
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