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 |
|---|---|---|
| 6MJK | 2018 | 0 |
| 6N0W | 2018 | 0 |
| 6N1M | 2018 | 0 |
| 6NB0 | 2018 | 0 |
| 6NB2 | 2019 | 0 |
| 6NBM | 2019 | 0 |
| 6NDR | 2018 | 0 |
| 6NHI | 2019 | 0 |
| 6NRZ | 2019 | 0 |
| 6NUP | 2019 | 0 |
| # | PDB | Additional SSGCID structures cited | Link | Title | Year | Citation | Highlighted abstract |
|---|---|---|---|---|---|---|---|
| 1 | 3t7c | 3s55 | https://www.biorxiv.org/content/10.1101/2020.10.15.341941v1.abstract | Structural studies on M. tuberculosis decaprenyl phosphoryl--D-ribose epimerase-2 enzyme involved in cell wall biogenesis | 2020 | SP Gangwar, A Bandyopadhyay, AK Saxena- bioRxiv, 2020 - biorxiv.org | The MtbDprE2 structure was aligned with structures of PDB database using TM- structural alignment program of I-TASSER server, which yielded ten closest structural homologs (as coverage=97.2% [54] (vi) PDB - 3t7c , identity=13.3%, coverage=97.2% [55] (vii) PDB -1ipe |
| 2 | 2kn9 | - | https://www.biorxiv.org/content/10.1101/2020.10.27.356691v1.abstract | A new twist of rubredoxin function in M. tuberculosis | 2020 | T Sushko, A Kavaleuski, I Grabovec, A Kavaleuskaya- bioRxiv, 2020 - biorxiv.org | 21]. Previously, a zinc-substituted RubB structure was solved by NMR ( PDB ID: 2KN9 ). Pairwise . In the NMR model, residues at C and N termini show backbone variability, while the rest of the structure remain almost unperturbed |
| 3 | 3s6d | - | https://www.biorxiv.org/content/10.1101/2020.12.04.412312v2.abstract | Leptospira interrogans triosephosphate isomerase: exploring the structural determinants of stability, high reaction rate and specificity. | 2020 | V Pareek, V Dhayabarn, H Balaram, PR Krishnaswamy- bioRxiv, 2020 - biorxiv.org | Contrary to our observation for the LiTIM structure , the backbone -CO of Trp11 has previously been observed in other TIMs (eg Page 15. 15 rare example of Glu at position 94 (LiTIM numbering) is in Coccidiodes immitis ( PDB ID: 3S6D ; Figures S2 and S5B) |
| 4 | 6vju | - | https://www.biorxiv.org/content/10.1101/2020.12.23.424250v1.abstract | A novel deep-sea bacterial threonine dehydratase drives cysteine desulfuration and hydrogen sulfide production | 2020 | N Ma, Y Sun, W Zhang, C Sun- bioRxiv, 2020 - biorxiv.org | of psTD with mutation of R77E (R is mutated to E; PDB 7DAR) was also solved for 156 comparison 1P5J, 6VJU (1P5J: Ser dehydratase, 6VJU : Cys synthase), which is directly opened to 193 methods. Based on the structure of psTD, its mutant and complex with PLP, we 231 |
| 5 | 3swt | - | https://www.biorxiv.org/content/10.1101/2021.01.05.425418v1.abstract | Virus-associated organosulfur metabolism in human and environmental systems | 2021 | K Kieft, AM Breister, P Huss, AM Linz, E Zanetakos- bioRxiv, 2021 - biorxiv.org | oxygen binding (eg WH and H) (Knauer 198 et al., 2012). Conserved amino acid residues that are not functional are likely preserved for 199 structural features. The retention of AMGs on viral genomes despite strong selective ... Annotations of functional amino acid residues were labeled according to the Protein Data Bank (PDB, accessed January 2019) (Berman et al., 2000) with the following identification numbers: 4BZQ and 4BZP (CysC), 2GOY (CysH), 3ZEI (CysK), 3SWT (TauD), and 1RG9 (MetK). |
| 6 | 6wps | - | https://www.biorxiv.org/content/10.1101/2021.01.25.427846v1.abstract | SARS-CoV-2 receptor binding mutations and antibody mediated immunity. | 2021 | M Mejdani, K Haddadi, C Pham, R Mahadevan- BioRxiv, 2021 - biorxiv.org | 39 ( PDB : 7JMP), CV07- 250 ( PDB : 6XKQ), P2B-2F6 ( PDB : 7BWJ), CV07-270 ( PDB : 6XKP), BD-368-2 ( PDB : 7CHE), and S309 ( PDB : 6WPS ) 53 Laskowski, RA PDBsum: summaries and analyses of PDB structures Fig.1: Structure of SARS-CoV-2 RBD bound to ACE2 receptor |
| 7 | 3tmg | 4z9n, 4f3p | https://www.biorxiv.org/content/10.1101/2021.01.27.428399v1.abstract | Gating the channel pore of ionotropic glutamate receptors with bacterial substrate binding proteins | 2021 | M Bernhard, B Laube- bioRxiv, 2021 - biorxiv.org | The bacterial GluR0 receptor was chosen due to its less complex architecture compared to eukaryotic iGluRs, characterized by the lack of an NTD, a Therefore, we used the structure of the glutamate-bound closed GluR0-LBD conformation (Mayer et al., 2001) ( PDB ID |
| 8 | 6q04 | - | https://www.biorxiv.org/content/10.1101/2021.02.09.430519v1.abstract | Transformations, Comparisons, and Analysis of Down to Up Protomer States of Variants of the SARS-CoV-2 Prefusion Spike Protein Including the UK Variant B. 1.1. 7 | 2021 | O Basidas, D Kokron, CE Henze- bioRxiv, 2021 - biorxiv.org | Clustal Omega uses a structure guided hidden Markov model (HMM) for multiple sequence alignment. Sequences were obtained directly from the PDB files across four different corona viruses SARS-CoV (6ACD) [14], SARS-CoV-2 (6VSB) [10], MERS-CoV ( 6Q04 ) [20], and |
| 9 | 6x79 | - | https://www.biorxiv.org/content/10.1101/2021.02.17.431625v1.abstract | A rigorous framework for detecting SARS-CoV-2 spike protein mutational ensemble from genomic and structural features | 2021 | S Fatihi, S Rathore, A Pathak, D Gahlot, M Mukerji- bioRxiv, 2021 - biorxiv.org | Cryo-EM structures of the D614G spike structure have revealed that the mutant D614 is stable with RBD in an up mational states of the spike were analysed (see Methods for PDB ids) spike conformers showed large structural changes, with an average deviation of 2.77 0.42 ... 18 cryo-EM structures for closed spike conformation (PDB ID: 6ZGE, 6VXX, 6X2C, 6X6P, 6X29, 6X79, 6XF5, 6XLU, 6XM5, 6ZB4, 6ZB5, 6ZGI, 6ZP0, 7CAB, 7DDD, 7DF3, 7JJI and 7JWY) were taken from RCSB P |
| 10 | 3qh4 | - | https://www.biorxiv.org/content/10.1101/2021.02.23.432567v1.abstract | Structure guided engineering of a cold active esterase expands substrate range though a stabilisation mutation that allows access to a buried water chamber | 2021 | N Noby, R Johnson, J Tyzack, A Embaby, H Saeed- bioRxiv, 2021 - biorxiv.org | to fully open the HerE plug. LipW ( PDB 3QH4 ) (26) has two shorter residues in place PestE ( PDB 2YH2) (28) does not have the plug (Figure 2b). N211 is replaced by a of helical character than the WT suggesting a higher degree of structure for the mutant at this temperature |