Voronoia4RNA—a database of atomic packing densities of RNA structures and their complexes

Ismer, Jochen; Rose, Alexander; Tiemann, Johanna K. S.; Goede, Andrean; Rother, Kristian; Hildebrand, Peter W.

doi:10.1093/nar/gks1061

Cited by 4 publications

(2 citation statements)

References 38 publications

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“…Ala-298 is the only of these three residues that is buried inside the protein moiety. In bRho Ser-298 together with Met-86 and Trp-265 separates a cluster of conserved water molecules from the Schiff base (31 (32), this additional space suggests the existence of a narrow continuous water pore formed in hRho connecting the two water-filled cavities above the retinal binding pocket (Fig. 3).…”

Section: A Structural Model Of Human Rhodopsin From MD Simulation-mentioning

confidence: 99%

The Activation Pathway of Human Rhodopsin in Comparison to Bovine Rhodopsin

Kazmin

Rose

Szczepek

et al. 2015

Journal of Biological Chemistry

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Background:Rhodopsins are the photoreceptors of the vertebrate eye. Results: We characterized human rhodopsin by spectroscopic methods and developed a structural model based on the well studied bovine rhodopsin. Conclusion:The activation pathways of the two receptors are similar. Differences exist between the inactive receptor conformations. Significance: Our findings will allow a better mechanistic understanding of disease-causing human rhodopsin mutations.

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Section: A Structural Model Of Human Rhodopsin From MD Simulation-mentioning

confidence: 99%

The Activation Pathway of Human Rhodopsin in Comparison to Bovine Rhodopsin

Kazmin

Rose

Szczepek

et al. 2015

Journal of Biological Chemistry

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“…Ongoing advances in web browser software facilitate this trend and allow the creation of rich visualization applications. Specifically, integration of browser-based visualizations simplifies access to results of structure-related calculations from web tools ( 3 , 4 ) and allows for quick depiction of entries in online structural databases ( 5 – 7 ). Hence, web browsers are extensively used for the visualization of molecular structures.…”

Section: Introductionmentioning

confidence: 99%

NGL Viewer: a web application for molecular visualization

2015

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The NGL Viewer (http://proteinformatics.charite.de/ngl) is a web application for the visualization of macromolecular structures. By fully adopting capabilities of modern web browsers, such as WebGL, for molecular graphics, the viewer can interactively display large molecular complexes and is also unaffected by the retirement of third-party plug-ins like Flash and Java Applets. Generally, the web application offers comprehensive molecular visualization through a graphical user interface so that life scientists can easily access and profit from available structural data. It supports common structural file-formats (e.g. PDB, mmCIF) and a variety of molecular representations (e.g. ‘cartoon, spacefill, licorice’). Moreover, the viewer can be embedded in other web sites to provide specialized visualizations of entries in structural databases or results of structure-related calculations.

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Voronoia 4-ever

Staritzbichler

Ristic

Goede

et al. 2021

Nucleic Acids Research

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We present an updated version of the Voronoia service that enables fully automated analysis of the atomic packing density of macromolecules. Voronoia combines previous efforts to analyse 3D protein and RNA structures into a single service, combined with state-of-the-art online visualization. Voronoia uses the Voronoi cell method to calculate the free space between neighbouring atoms to estimate van der Waals interactions. Compared to other methods that derive van der Waals interactions by calculating solvent-free surfaces, it explicitly considers volume or packing defects. Large internal voids refer either to water molecules or ions unresolved by X-ray crystallography or cryo-EM, cryptic ligand binding pockets, or parts of a structural model that require further refinement. Voronoia is, therefore mainly used for functional analyses of 3D structures and quality assessments of structural models. Voronoia 4-ever updates the database of precomputed packing densities of PDB entries, allows uploading multiple structures, adds new filter options and facilitates direct access to the results through intuitive display with the NGL viewer. Voronoia is available at: htttp://proteinformatics.org/voronoia.

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Voronoia4RNA—a database of atomic packing densities of RNA structures and their complexes

Cited by 4 publications

References 38 publications

The Activation Pathway of Human Rhodopsin in Comparison to Bovine Rhodopsin

The Activation Pathway of Human Rhodopsin in Comparison to Bovine Rhodopsin

NGL Viewer: a web application for molecular visualization

Voronoia 4-ever

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