E. V. Sobolev scite author profile

The Collaborative Computational Project No. 4 (CCP4) is a UK-led international collective with a mission to develop, test, distribute and promote software for macromolecular crystallography. The CCP4 suite is a multiplatform collection of programs brought together by familiar execution routines, a set of common libraries and graphical interfaces. The CCP4 suite has experienced several considerable changes since its last reference article, involving new infrastructure, original programs and graphical interfaces. This article, which is intended as a general literature citation for the use of the CCP4 software suite in structure determination, will guide the reader through such transformations, offering a general overview of the new features and outlining future developments. As such, it aims to highlight the individual programs that comprise the suite and to provide the latest references to them for perusal by crystallographers around the world.

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Megahertz single-particle imaging at the European XFEL

Sobolev

Zolotarev

Giewekemeyer

et al. 2020

Commun Phys

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The emergence of high repetition-rate X-ray free-electron lasers (XFELs) powered by superconducting accelerator technology enables the measurement of significantly more experimental data per day than was previously possible. The European XFEL is expected to provide 27,000 pulses per second, over two orders of magnitude more than any other XFEL. The increased pulse rate is a key enabling factor for single-particle X-ray diffractive imaging, which relies on averaging the weak diffraction signal from single biological particles. Taking full advantage of this new capability requires that all experimental steps, from sample preparation and delivery to the acquisition of diffraction patterns, are compatible with the increased pulse repetition rate. Here, we show that single-particle imaging can be performed using X-ray pulses at megahertz repetition rates. The results obtained pave the way towards exploiting high repetition-rate X-ray free-electron lasers for single-particle imaging at their full repetition rate.

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The use of local structural similarity of distant homologues for crystallographic model building from a molecular-replacement solution

Chojnowski¹,

Choudhury²,

Heuser³

et al. 2020

Acta Cryst Sect D Struct Biol

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The performance of automated protein model building usually decreases with resolution, mainly owing to the lower information content of the experimental data. This calls for a more elaborate use of the available structural information about macromolecules. Here, a new method is presented that uses structural homologues to improve the quality of protein models automatically constructed using ARP/wARP. The method uses local structural similarity between deposited models and the model being built, and results in longer main‐chain fragments that in turn can be more reliably docked to the protein sequence. The application of the homology‐based model extension method to the example of a CFA synthase at 2.7 Å resolution resulted in a more complete model with almost all of the residues correctly built and docked to the sequence. The method was also evaluated on 1493 molecular‐replacement solutions at a resolution of 4.0 Å and better that were submitted to the ARP/wARP web service for model building. A significant improvement in the completeness and sequence coverage of the built models has been observed.

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The accuracy of protein models automatically built into cryo-EM maps with ARP/wARP

Chojnowski¹,

Sobolev²,

Heuser³

et al. 2021

Acta Cryst Sect D Struct Biol

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Recent developments in cryogenic electron microscopy (cryo-EM) have enabled structural studies of large macromolecular complexes at resolutions previously only attainable using macromolecular crystallography. Although a number of methods can already assist in de novo building of models into high-resolution cryo-EM maps, automated and reliable map interpretation remains a challenge. Presented here is a systematic study of the accuracy of models built into cryo-EM maps using ARP/wARP. It is demonstrated that the local resolution is a good indicator of map interpretability, and for the majority of the test cases ARP/wARP correctly builds 90% of main-chain fragments in regions where the local resolution is 4.0 Å or better. It is also demonstrated that the coordinate accuracy for models built into cryo-EM maps is comparable to that of X-ray crystallographic models at similar local cryo-EM and crystallographic resolutions. The model accuracy also correlates with the refined atomic displacement parameters.

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Lamellar formations in the structure of natural diamonds

Sobolev¹,

Lenskaya²,

Lisoivan³

1969

J Struct Chem

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Distinctive H-(RLDL)4-OH peptide complexes potentiate nanostructure self-assembling in water

Danilkovich

Sobolev

Тихонов

et al. 2012

Dokl Biochem Biophys

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Thermostimulated luminescence and phosphorescence of natural diamonds at low temperatures

Sobolev¹,

Eliseev²

1977

J Struct Chem

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E. V. Sobolev

Some general characteristic properties of substituted cyclopentadienes

The CCP4 suite: integrative software for macromolecular crystallography

Megahertz single-particle imaging at the European XFEL

The use of local structural similarity of distant homologues for crystallographic model building from a molecular-replacement solution

The accuracy of protein models automatically built into cryo-EM maps with ARP/wARP

Lamellar formations in the structure of natural diamonds

Distinctive H-(RLDL)4-OH peptide complexes potentiate nanostructure self-assembling in water

Thermostimulated luminescence and phosphorescence of natural diamonds at low temperatures

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