Haroldas Bagdonas 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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Structural glycobiology in the age of electron cryo-microscopy

Atanasova

Bagdonas

Agirre

2020

Current Opinion in Structural Biology

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Highlights • Progress is being made on providing automated model building and validation tools for structural glycobiology • Electron cryo-microscopy (cryo-EM) can now be routinely used for resolving protein glycosylation • High-resolution cryo-EM structures show fewer pyranose high-energy conformations than X-ray ones • Re-refinement with the latest methods can produce better structures of glycoproteins automatically

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Leveraging glycomics data in glycoprotein 3D structure validation with Privateer

Bagdonas¹,

Ungár²,

Agirre³

2020

Beilstein J. Org. Chem.

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The heterogeneity, mobility and complexity of glycans in glycoproteins have been, and currently remain, significant challenges in structural biology. These aspects present unique problems to the two most prolific techniques: X-ray crystallography and cryo-electron microscopy. At the same time, advances in mass spectrometry have made it possible to get deeper insights on precisely the information that is most difficult to recover by structure solution methods: the full-length glycan composition, including linkage details for the glycosidic bonds. The developments have given rise to glycomics. Thankfully, several large scale glycomics initiatives have stored results in publicly available databases, some of which can be accessed through API interfaces. In the present work, we will describe how the Privateer carbohydrate structure validation software has been extended to harness results from glycomics projects, and its use to greatly improve the validation of 3D glycoprotein structures.

show abstract

Leveraging glycomics data in glycoprotein 3D structure validation with Privateer

Bagdonas¹,

Ungár²,

Agirre³

2020

Preprint

View full text Add to dashboard Cite

The heterogeneity, mobility and complexity of glycans in glycoproteins have been, and currently remain, significant challenges in structural biology. Those aspects present unique problems to the two most prolific techniques: X-ray crystallography and cryo-electron microscopy. At the same time, advances in mass spectrometry have made it possible to get deeper insights on precisely the information that is most difficult to recover by structure solution methods: full-length glycan composition, including linkage details for the glycosidic bonds. These developments have given rise to glycomics. Thankfully, several large scale glycomics initiatives have stored results in publicly-available databases, some of which can be accessed through API interfaces. In the present work, we will describe how the Privateer carbohydrate structure validation software has been extended to harness results from glycomics projects, and its use to greatly improve the validation of 3D glycoprotein structures.

show abstract

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