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@article{2346261, author = {Appasamy, Sri Devan and Berrisford, John and Gáborová, Romana and Nair, Sreenath and Anyango, Stephen and Grudinin, Sergei and Deshpande, Mandar and Armstrong, David and Pidruchna, Ivanna and Ellaway, Joseph I. J. and Leines, Grisell Díaz and Gupta, Deepti and Harrus, Deborah and Varadi, Mihaly and Velankar, Sameer}, article_number = {1}, doi = {http://dx.doi.org/10.1038/s41597-023-02778-9}, keywords = {CRYSTAL-STRUCTURE; 20S PROTEASOME; MECHANISM; PDB; ASSEMBLIES; RECEPTOR; REVEALS; RESOURCE; YEAST; STATE}, language = {eng}, issn = {2052-4463}, journal = {Scientific Data}, title = {Annotating Macromolecular Complexes in the Protein Data Bank: Improving the FAIRness of Structure Data}, url = {https://doi.org/10.1038/s41597-023-02778-9}, volume = {10}, year = {2023} }
TY - JOUR ID - 2346261 AU - Appasamy, Sri Devan - Berrisford, John - Gáborová, Romana - Nair, Sreenath - Anyango, Stephen - Grudinin, Sergei - Deshpande, Mandar - Armstrong, David - Pidruchna, Ivanna - Ellaway, Joseph I. J. - Leines, Grisell Díaz - Gupta, Deepti - Harrus, Deborah - Varadi, Mihaly - Velankar, Sameer PY - 2023 TI - Annotating Macromolecular Complexes in the Protein Data Bank: Improving the FAIRness of Structure Data JF - Scientific Data VL - 10 IS - 1 SP - 1-13 EP - 1-13 PB - Nature Portfolio SN - 20524463 KW - CRYSTAL-STRUCTURE KW - 20S PROTEASOME KW - MECHANISM KW - PDB KW - ASSEMBLIES KW - RECEPTOR KW - REVEALS KW - RESOURCE KW - YEAST KW - STATE UR - https://doi.org/10.1038/s41597-023-02778-9 N2 - Macromolecular complexes are essential functional units in nearly all cellular processes, and their atomic-level understanding is critical for elucidating and modulating molecular mechanisms. The Protein Data Bank (PDB) serves as the global repository for experimentally determined structures of macromolecules. Structural data in the PDB offer valuable insights into the dynamics, conformation, and functional states of biological assemblies. However, the current annotation practices lack standardised naming conventions for assemblies in the PDB, complicating the identification of instances representing the same assembly. In this study, we introduce a method leveraging resources external to PDB, such as the Complex Portal, UniProt and Gene Ontology, to describe assemblies and contextualise them within their biological settings accurately. Employing the proposed approach, we assigned standard names to over 90% of unique assemblies in the PDB and provided persistent identifiers for each assembly. This standardisation of assembly data enhances the PDB, facilitating a deeper understanding of macromolecular complexes. Furthermore, the data standardisation improves the PDB’s FAIR attributes, fostering more effective basic and translational research and scientific education. ER -
APPASAMY, Sri Devan, John BERRISFORD, Romana GÁBOROVÁ, Sreenath NAIR, Stephen ANYANGO, Sergei GRUDININ, Mandar DESHPANDE, David ARMSTRONG, Ivanna PIDRUCHNA, Joseph I. J. ELLAWAY, Grisell Díaz LEINES, Deepti GUPTA, Deborah HARRUS, Mihaly VARADI and Sameer VELANKAR. Annotating Macromolecular Complexes in the Protein Data Bank: Improving the FAIRness of Structure Data. \textit{Scientific Data}. Nature Portfolio, 2023, vol.~10, No~1, p.~1-13. ISSN~2052-4463. Available from: https://dx.doi.org/10.1038/s41597-023-02778-9.
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