We are actively tracking the number of publications by the scientific community which reference our structures, whether in the main text, figure captions or supplementary material. Selected articles are manually reviewed. Publications by SSGCID authors are excluded from the manually reviewed list. From our manual curation results, we estimate that the false positive rate might be as high as 50% for some structures.
This list was obtained from Google Scholar searches using an API provided by Christian Kreibich.
| Structure | Year released | #citations |
|---|---|---|
| 6V91 | 2020 | 0 |
| 6VH5 | 2020 | 0 |
| 6DEG | 2018 | 0 |
| 6VS4 | 2020 | 0 |
| 5TT0 | 2016 | 0 |
| 5TR9 | 2016 | 0 |
| 5TQV | 2016 | 0 |
| 6W14 | 2020 | 0 |
| 6W15 | 2020 | 0 |
| 6W2O | 2020 | 0 |
| # | PDB | Additional SSGCID structures cited | Link | Title | Year | Citation | Highlighted abstract |
|---|---|---|---|---|---|---|---|
| 1 | 6nb3 | - | https://advances.sciencemag.org/content/7/1/eabe5575.abstract | Conformational dynamics of SARS-CoV-2 trimeric spike glycoprotein in complex with receptor ACE2 revealed by cryo-EM | 2021 | C Xu, Y Wang, C Liu, C Zhang, W Han- Science, 2021 - advances.sciencemag.org | For the FP region, we first built the homology model by the Modeller tool within Chimera by using the MERS-CoV S structure (PDB: 6NB3) as template (2, 58, 59) and then used Rosetta to refine this region against the density map |
| 2 | 6wpt | - | https://advances.sciencemag.org/content/7/16/eabf3671?utm_campaign=TrendMD_1&utm... | The SARS-CoV-2 spike variant D614G favors an open conformational state | 2021 | RA Mansbach, S Chakraborty, K Nguyen- Science, 2021 - advances.sciencemag.org | 1 Structural representation of the Spike protein. (A) The Spike complex is shown in the all-down conformation. Its S1 and S2 subunits are depicted in red and blue We display the domains highlighted in the Spike structure , shown from two different perspectives ... S309 Fab binding to up-RBD was modeled by rigid-body alignment to closed-RBD and Fab interactions from PDB structure 6WPT (21), using the backbone of residues 331 to 527 for least squares fitting. |
| 3 | 5vp5 | - | https://aca.scitation.org/doi/full/10.1063/4.0000089 | Developing a macromolecular crystallography driven CURE | 2021 | KJ McLaughlin - 2021 - aca.scitation.org | While these protein x-ray crystallography structures are key to allowing students to CURE that could expose and excite a next generation of potential structural scientists 3 3. KJ McLaughlin, Understanding structure : A computer-based macromolecular biochemistry lab activity, J |
| 4 | 6bfu | - | https://academic.oup.com/ve/article-abstract/6/1/veaa003/5734706 | Unraveling virus relationships by structure-based phylogenetic classification | 2020 | WM Ng, AJ Stelfox, TA Bowden- Virus Evolution, 2020 - academic.oup.com | Unraveling virus relationships by structure -based phylogenetic classification. Weng M Ng. Division of Structural Biology, Wellcome Centre for Human Genetics, University of Oxford. ... human coronavirus NL63 (3KBH); human coronavirus 229E (6ATK); porcine deltacoronavirus, PDCoV (6BFU). All chains not comprising S1-CTD (e.g. receptor and antibody fragments) were removed prior to structural alignment |
| 5 | 3uam | - | https://academic.oup.com/plcell/advance-article-abstract/doi/10.1093/plcell/koab... | Effectors With Chitinase Activity (EWCAs), a family of conserved, secreted fungal chitinases that suppress chitin-triggered immunity | 2021 | J Martnez-Cruz, D Romero, J Hierrezuelo- The Plant, 2021 - academic.oup.com | Phytopathogenic fungi secrete effectors with chitinase activity to break down immunogenic chitin oligomers and suppress plant immunity. The other models are 3D models of crystallized proteins from Hypocrea jecorina (2VTC, glycoside hydrolase family 61 member), A. oryzae (4MAH, lytic poly- saccharide monooxygenase), E. faecalis (4A02, chitinase), and Burkholderia pseudomallei (3UAM, chitin-binding domain) |
| 6 | 4o5o | - | https://academic.oup.com/peds/article-abstract/doi/10.1093/protein/gzab008/62691... | A fragment-based protein interface design algorithm for symmetric assemblies | 2021 | J Laniado, K Meador, TO Yeates- Protein Engineering, Design, 2021 - academic.oup.com | The expansive database of known protein structures provides valuable empirical frameworks for The growing focus on secondary structure associations motivates an attempt to bring by precomputing common proteinprotein fragment configurations from known structural data |
| 7 | 6vxx | - | https://academic.oup.com/nar/article-abstract/49/D1/D437/5992282 | RCSB Protein Data Bank: powerful new tools for exploring 3D structures of biological macromolecules for basic and applied research and education in fundamental | 2021 | SK Burley, C Bhikadiya, C Bi, S Bittrich- Nucleic acids, 2021 - academic.oup.com | Biology; Nucleic Acid Enzymes; RNA and RNA-protein complexes; Structural Biology; Synthetic Biology and Bioengineering; Methods Online; Surveys and Summaries; Database; Web Server. Advance articles; Submit: Author Guidelines; |
| 8 | 6wps | 6vxx | https://academic.oup.com/nar/article-abstract/49/D1/D282/5901966 | CoV3D: a database of high resolution coronavirus protein structures | 2021 | R Gowthaman, JD Guest, R Yin- Nucleic acids, 2021 - academic.oup.com | (A) Visualization of the superposed spike RBD complexes with antibody S309 ( PDB code 6WPS ) ( 20 ) and (B) A trimeric spike structure in RBD-closed conformation ( 5 ) ( PDB code 6VXX Park YJ, Tortorici MA, Wall A., McGuire AT and Veesler D. (2020) Structure , Function, and |
| 9 | 3uqa | - | https://academic.oup.com/nar/article-abstract/48/3/1531/5661091 | AtFKBP53: a chimeric histone chaperone with functional nucleoplasmin and PPIase domains | 2020 | AK Singh, A Datta, C Jobichen, S Luan- Nucleic Acids, 2020 - academic.oup.com | this PPIase with histone chaperoning activity, we have solved the crystal structures of its a pentameric nucleoplasmin-fold; making this the first report of a plant nucleoplasmin structure The crystal structure of AtFKBP53 FKBD (residues 360–477) was solved by molecular replacement method with the help of program MolRep (52) from CCP4 suite, using the coordinates of the A54E mutant of Burkholderia pseudomallei FKBP-FK506 complex structure as a search model (PDB ID: 3UQA), but without FK506. |
| 10 | 5cy4 | - | https://academic.oup.com/nar/article-abstract/48/10/5572/5828917 | Human REXO2 controls short mitochondrial RNAs generated by mtRNA processing and decay machinery to prevent accumulation of double-stranded RNA | 2020 | M Szewczyk, D Malik, LS Borowski- Nucleic acids, 2020 - academic.oup.com | Here, we report comprehensive functional, biochemical, and structural studies to elucidate REXO2 function in human mitochondria We also demonstrate that REXO2 degrades RNA in a structure - and sequence-dependent manner. ... The model that was used for molecular replacement was oligoribonuclease from Acinetobacter baumnii (PDB ID: 5CY4, Seattle Structure Genomics Centre for Infectious Diseases), which shares 48.3% sequence identity with REXO2. |