| 1 |
Jaimes_2020 |
Phylogenetic Analysis and Structural Modeling of SARS-CoV-2 Spike Protein Reveals an Evolutionary Distinct and Proteolytically Sensitive Activation Loop |
Jaimes, Javier A.; André, Nicole M.; Chappie, Joshua S.; Millet, Jean K.; Whittaker, Gary R. |
2020 |
2020-04-19 |
PMC |
Y |
|
|
10.1016/j.jmb.2020.04.009 |
26pcjts9 |
0.945289 |
Callison_1999, UNKNOWN_1987 |
|
| 2 |
Jaimes_2020 |
Structural modeling of 2019-novel coronavirus (nCoV) spike protein reveals a proteolytically-sensitive activation loop as a distinguishing feature compared to SARS-CoV and related SARS-like coronaviruses |
Javier A. Jaimes; Nicole M. André; Jean K. Millet; Gary R. Whittaker |
2020 |
2020-02-18 |
BioRxiv |
Y |
|
|
10.1101/2020.02.10.942185 |
xa6kwguo |
0.943694 |
Callison_1999, UNKNOWN_1987 |
|
| 3 |
Wang_2013 |
Structure of MERS-CoV spike receptor-binding domain complexed with human receptor DPP4 |
Wang, Nianshuang; Shi, Xuanling; Jiang, Liwei; Zhang, Senyan; Wang, Dongli; Tong, Pei; Guo, Dongxing; Fu, Lili; Cui, Ye; Liu, Xi; Arledge, Kelly C; Chen, Ying-Hua; Zhang, Linqi; Wang, Xinquan |
2013 |
2013-07-09 |
NONCOMM |
N |
PMC3731569 |
23835475.0 |
10.1038/cr.2013.92 |
gwq4vev6 |
0.930242 |
Ivarsson_2012, Smith_2003 |
Zhang_2018, Guillén_2009 |
| 4 |
Song_2014 |
Identification of residues on human receptor DPP4 critical for MERS-CoV binding and entry |
Song, Wenfei; Wang, Ying; Wang, Nianshuang; Wang, Dongli; Guo, Jianying; Fu, Lili; Shi, Xuanling |
2014 |
2014-12-31 |
PMC |
N |
PMC7112127 |
25461530.0 |
10.1016/j.virol.2014.10.006 |
aywdmj6o |
0.883678 |
Ivarsson_2012, Smith_2003, Gomis-Rüth_2003 |
Wang_2013, Yuan_2004 |
| 5 |
Luan_2020 |
Spike protein recognition of mammalian ACE2 predicts the host range and an optimized ACE2 for SARS-CoV-2 infection |
Luan, Junwen; Lu, Yue; Jin, Xiaolu; Zhang, Leiliang |
2020 |
2020-03-19 |
PMC |
Y |
|
|
10.1016/j.bbrc.2020.03.047 |
96v185b2 |
0.883371 |
UNKNOWN_1987 |
Yuan_2004 |
| 6 |
Wu_K_2012 |
Mechanisms of Host Receptor Adaptation by Severe Acute Respiratory Syndrome Coronavirus |
Wu, Kailang; Peng, Guiqing; Wilken, Matthew; Geraghty, Robert J.; Li, Fang |
2012 |
2012-01-30 |
PMC |
N |
PMC3308800 |
22291007.0 |
10.1074/jbc.m111.325803 |
c4q5gtw2 |
0.875243 |
|
|
| 7 |
Han_X_2017 |
Structure of the S1 subunit C-terminal domain from bat-derived coronavirus HKU5 spike protein |
Han, Xue; Qi, Jianxun; Song, Hao; Wang, Qihui; Zhang, Yanfang; Wu, Ying; Lu, Guangwen; Yuen, Kwok-Yung; Shi, Yi; Gao, George F. |
2017 |
2017-07-31 |
PMC |
N |
PMC7111649 |
28432925.0 |
10.1016/j.virol.2017.04.016 |
b4eehp3o |
0.859715 |
UNKNOWN_1987, Callison_1999, Ivarsson_2012 |
Ou_X_2017, Cheng_2019, Yu_J_2020 |
| 8 |
Wang_2008 |
Endocytosis of the receptor-binding domain of SARS-CoV spike protein together with virus receptor ACE2 |
Wang, Shunxin; Guo, Feng; Liu, Kangtai; Wang, Hongliang; Rao, Shuan; Yang, Peng; Jiang, Chengyu |
2008 |
2008-09-30 |
PMC |
N |
PMC7114441 |
18554741.0 |
10.1016/j.virusres.2008.03.004 |
wku1sd9k |
0.813715 |
UNKNOWN_1987 |
He_Y_2004 |
| 9 |
Yuan_2020 |
A highly conserved cryptic epitope in the receptor-binding domains of SARS-CoV-2 and SARS-CoV |
Yuan, Meng; Wu, Nicholas C.; Zhu, Xueyong; Lee, Chang-Chun D.; So, Ray T. Y.; Lv, Huibin; Mok, Chris K. P.; Wilson, Ian A. |
2020 |
2020-04-03 |
None |
Y |
PMC7164391 |
32245784.0 |
10.1126/science.abb7269 |
pkxc2219 |
0.811620 |
UNKNOWN_1987, Gomis-Rüth_2003 |
|
| 10 |
Huang_2016 |
Putative Receptor Binding Domain of Bat-Derived Coronavirus HKU9 Spike Protein: Evolution of Betacoronavirus Receptor Binding Motifs |
Huang, Canping; Qi, Jianxun; Lu, Guangwen; Wang, Qihui; Yuan, Yuan; Wu, Ying; Zhang, Yanfang; Yan, Jinghua; Gao, George F. |
2016 |
2016-10-03 |
PMC |
N |
PMC7075523 |
27696819.0 |
10.1021/acs.biochem.6b00790 |
0y0hau9l |
0.806307 |
UNKNOWN_1987, Ivarsson_2012, Gomis-Rüth_2003 |
|
| 11 |
Deng_2016 |
Identification and Comparison of Receptor Binding Characteristics of the Spike Protein of Two Porcine Epidemic Diarrhea Virus Strains |
Deng, Feng; Ye, Gang; Liu, Qianqian; Navid, Muhammad Tariq; Zhong, Xiaoli; Li, Youwen; Wan, Chunyun; Xiao, Shaobo; He, Qigai; Fu, Zhen F.; Peng, Guiqing |
2016 |
2016-02-23 |
COMM-USE |
N |
PMC4810246 |
26907329.0 |
10.3390/v8030055 |
7tzkttoz |
0.804597 |
|
Sun_Y_2018 |
| 12 |
Yuan_2020 |
A highly conserved cryptic epitope in the receptor-binding domains of SARS-CoV-2 and SARS-CoV |
Meng Yuan; Nicholas C. Wu; Xueyong Zhu; Chang-Chun D. Lee; Ray T. Y. So; Huibin Lv; Chris K. P. Mok; Ian A. Wilson |
2020 |
2020-03-14 |
BioRxiv |
Y |
|
|
10.1101/2020.03.13.991570 |
f03ka7bd |
0.787140 |
UNKNOWN_1987, Ivarsson_2012, Gomis-Rüth_2003 |
Joyce_2020 |
| 13 |
Procko_2020 |
The sequence of human ACE2 is suboptimal for binding the S spike protein of SARS coronavirus 2 |
Erik Procko |
2020 |
2020-03-17 |
BioRxiv |
Y |
|
|
10.1101/2020.03.16.994236 |
jalijjmg |
0.783056 |
Ivarsson_2012 |
Joyce_2020 |
| 14 |
Lu_G_2013 |
Molecular basis of binding between novel human coronavirus MERS-CoV and its receptor CD26 |
Lu, Guangwen; Hu, Yawei; Wang, Qihui; Qi, Jianxun; Gao, Feng; Li, Yan; Zhang, Yanfang; Zhang, Wei; Yuan, Yuan; Bao, Jinku; Zhang, Buchang; Shi, Yi; Yan, Jinghua; Gao, George F. |
2013 |
2013-07-07 |
PMC |
N |
PMC7095341 |
23831647.0 |
10.1038/nature12328 |
3nd6ptrg |
0.776645 |
UNKNOWN_1987, Ivarsson_2012, Smith_2003 |
|
| 15 |
Vankadari_2020 |
Emerging WuHan (COVID-19) coronavirus: glycan shield and structure prediction of spike glycoprotein and its interaction with human CD26 |
Vankadari, Naveen; Wilce, Jacqueline A. |
2020 |
2020-03-17 |
COMM-USE |
Y |
PMC7103712 |
32178593.0 |
10.1080/22221751.2020.1739565 |
boqygpow |
0.769989 |
Ivarsson_2012 |
Shajahan_2020 |
| 16 |
Nguyen_2020 |
Elucidating the differences in the molecular mechanism of receptor binding between 2019-nCoV and the SARS-CoV viruses using computational tools |
Toan The Nguyen; Hien Thi Thu Lai; Ly Hai Nguyen; Duc Nguyen-Manh; Agata The Kranjc Pietrucci |
2020 |
2020-04-21 |
BioRxiv |
Y |
|
|
10.1101/2020.04.21.053009 |
xucpbsbm |
0.769584 |
Ivarsson_2012, UNKNOWN_1987 |
|
| 17 |
Shajahan_2020 |
Deducing the N- and O-glycosylation profile of the spike protein of novel coronavirus SARS-CoV-2 |
Asif Shajahan; Nitin T. Supekar; Anne S. Gleinich; Parastoo Azadi |
2020 |
2020-04-03 |
BioRxiv |
Y |
|
|
10.1101/2020.04.01.020966 |
f0xsisdg |
0.764760 |
Ivarsson_2012, UNKNOWN_1987, Callison_1999 |
Voß_D_2009, Liu_M_2006 |
| 18 |
Yan_R_2020 |
Structural basis for the recognition of the 2019-nCoV by human ACE2 |
Renhong Yan; Yuanyuan Zhang; Yingying Guo; Lu Xia; Qiang Zhou |
2020 |
2020-02-20 |
BioRxiv |
Y |
|
|
10.1101/2020.02.19.956946 |
elo7kfun |
0.764163 |
UNKNOWN_1987, Ivarsson_2012, Chang_2000, Callison_1999 |
Guillén_2009, Zhang_2009, Yan_R_2020 |
| 19 |
Hussain_2020 |
Structural Basis of SARS-CoV-2 Spike Protein Priming by TMPRSS2 |
Mushtaq Hussain; Nusrat Jabeen; Anusha Amanullah; Ayesha Ashraf Baig; Basma Aziz; Sanya Shabbir; Fozia Raza |
2020 |
2020-04-22 |
BioRxiv |
Y |
|
|
10.1101/2020.04.21.052639 |
34ljq0qt |
0.760655 |
Ivarsson_2012, UNKNOWN_1987, Chang_2000 |
|
| 20 |
Yu_X_2015 |
Structural basis for the neutralization of MERS-CoV by a human monoclonal antibody MERS-27 |
Yu, Xiaojuan; Zhang, Senyan; Jiang, Liwei; Cui, Ye; Li, Dongxia; Wang, Dongli; Wang, Nianshuang; Fu, Lili; Shi, Xuanlin; Li, Ziqiang; Zhang, Linqi; Wang, Xinquan |
2015 |
2015-08-18 |
COMM-USE |
N |
PMC4539535 |
26281793.0 |
10.1038/srep13133 |
47ovbto5 |
0.759132 |
UNKNOWN_1987, Gomis-Rüth_2003 |
Zhang_2018 |
| 21 |
Wu_Y_2020 |
Strong evolutionary convergence of receptor-binding protein spike between COVID-19 and SARS-related coronaviruses |
Yonghua Wu |
2020 |
2020-03-04 |
BioRxiv |
Y |
|
|
10.1101/2020.03.04.975995 |
4ihv80au |
0.755350 |
|
|
| 22 |
Li_W_2007 |
The S proteins of human coronavirus NL63 and severe acute respiratory syndrome coronavirus bind overlapping regions of ACE2 |
Li, Wenhui; Sui, Jianhua; Huang, I-Chueh; Kuhn, Jens H.; Radoshitzky, Sheli R.; Marasco, Wayne A.; Choe, Hyeryun; Farzan, Michael |
2007 |
2007-10-25 |
None |
N |
PMC2693060 |
17631932.0 |
10.1016/j.virol.2007.04.035 |
p4kuno89 |
0.748232 |
|
Liu_M_2006 |
| 23 |
Yu_J_2020 |
Cryo-EM structures of HKU2 and SADS-CoV spike glycoproteins and insights into coronavirus evolution |
Jinfang Yu; Shuyuan Qiao; Runyu Guo; Xinquan Wang |
2020 |
2020-02-24 |
BioRxiv |
N |
|
|
10.1101/2020.02.23.961912 |
25va2cvt |
0.747117 |
Callison_1999, UNKNOWN_1987, Ivarsson_2012 |
Shang_2018 |
| 24 |
Armijos-Jaramillo_2020 |
SARS-CoV-2, an evolutionary perspective of interaction with human ACE2 reveals undiscovered amino acids necessary for complex stability |
Vinicio Armijos-Jaramillo; Justin Yeager; Claire Muslin; Yunierkis Perez-Castillo |
2020 |
2020-03-23 |
BioRxiv |
Y |
|
|
10.1101/2020.03.21.001933 |
q0yqnlyl |
0.734858 |
|
Yuan_2004, Zhang_2009 |
| 25 |
Chen_2020 |
Structure analysis of the receptor binding of 2019-nCoV |
Chen, Yun; Guo, Yao; Pan, Yihang; Zhao, Zhizhuang Joe |
2020 |
2020-01-01 |
None |
Y |
|
|
10.1016/j.bbrc.2020.02.071 |
647zcjgu |
0.730753 |
UNKNOWN_1987, Ivarsson_2012, Yang_2012 |
Yuan_2004, Guillén_2009, Wang_2013 |
| 26 |
Reguera_2014 |
A structural view of coronavirus–receptor interactions |
Reguera, Juan; Mudgal, Gaurav; Santiago, César; Casasnovas, José M. |
2014 |
2014-12-19 |
PMC |
N |
PMC7114462 |
25451063.0 |
10.1016/j.virusres.2014.10.005 |
npryvcy3 |
0.720065 |
|
|
| 27 |
Sigrist_2020 |
A potential role for integrins in host cell entry by SARS-CoV-2 |
Sigrist, Christian; Bridge, Alan; Le Mercier, Philippe |
2020 |
2020-01-01 |
None |
Y |
PMC7114098 |
32130973.0 |
10.1016/j.antiviral.2020.104759 |
2hgwa6pq |
0.707836 |
Ivarsson_2012, Smith_2003, UNKNOWN_1987, Choudhury_2017, Chang_2000 |
Zhang_2009, Joyce_2020, Reguera_2014 |
| 28 |
Yan_R_2020 |
Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2 |
Yan, Renhong; Zhang, Yuanyuan; Li, Yaning; Xia, Lu; Guo, Yingying; Zhou, Qiang |
2020 |
2020-03-27 |
None |
Y |
PMC7164635 |
32132184.0 |
10.1126/science.abb2762 |
g8iz65wm |
0.702892 |
UNKNOWN_1987, Gomis-Rüth_2003, Ivarsson_2012, Smith_2003 |
Guillén_2009, Wang_2020, Joyce_2020, Zhang_2009 |
| 29 |
Renzi_2020 |
ACE2 fragment as a decoy for novel SARS-Cov-2 virus |
Fabiana Renzi; Dario Ghersi |
2020 |
2020-04-10 |
BioRxiv |
Y |
|
|
10.1101/2020.04.06.028647 |
77ku0164 |
0.675674 |
Ivarsson_2012, UNKNOWN_1987, Smith_2003, Chan_2016 |
Zhang_2009, Guillén_2009, Wu_Zhang_2004 |
| 30 |
Li_T_2020 |
Characterization of the SARS-CoV-2 Spike in an Early Prefusion Conformation |
Tingting Li; Qingbing Zheng; Hai Yu; Dinghui Wu; Wenhui Xue; Yuyun Zhang; Xiaofen Huang; Lizhi Zhou; Zhigang Zhang; Zhenghui Zha; Tingting Chen; Zhiping Wang; Jie Chen; Hui Sun; Tingting Deng; Yingbin Wang; Yixin Chen; Qinjian Zhao; Jun Zhang; Ying Gu; Shaowei Li; Ningshao Xia |
2020 |
2020-03-17 |
BioRxiv |
Y |
|
|
10.1101/2020.03.16.994152 |
i9r77o70 |
0.665299 |
UNKNOWN_1987, Gomis-Rüth_2003, Li_F_2016 |
|
| 31 |
Zeng_2020 |
Predictions for the binding domain and potential new drug targets of 2019-nCoV |
Zehua Zeng; Zhi Luo; Hongwu Du |
2020 |
2020-03-02 |
BioRxiv |
Y |
|
|
10.1101/2020.02.26.961938 |
fvig79k3 |
0.660412 |
UNKNOWN_1987, Callison_1999 |
Wang_2013 |
| 32 |
Li_A_2017 |
Structural basis of nectin-1 recognition by pseudorabies virus glycoprotein D |
Li, An; Lu, Guangwen; Qi, Jianxun; Wu, Lili; Tian, Kegong; Luo, Tingrong; Shi, Yi; Yan, Jinghua; Gao, George F. |
2017 |
2017-05-19 |
COMM-USE |
N |
PMC5453625 |
28542478.0 |
10.1371/journal.ppat.1006314 |
8ddgc5z9 |
0.657753 |
|
|
| 33 |
Zhang_2020 |
The first-in-class peptide binder to the SARS-CoV-2 spike protein |
G. Zhang; S. Pomplun; A. R. Loftis; A. Loas; B. L. Pentelute |
2020 |
2020-03-20 |
BioRxiv |
Y |
|
|
10.1101/2020.03.19.999318 |
yi6yu5l1 |
0.651670 |
Ivarsson_2012, UNKNOWN_1987, Smith_2003 |
Veiga_2006, Joyce_2020, Zhu_Y_2020 |
| 34 |
Zhang_2018 |
Structural Definition of a Unique Neutralization Epitope on the Receptor-Binding Domain of MERS-CoV Spike Glycoprotein |
Zhang, Senyan; Zhou, Panpan; Wang, Pengfei; Li, Yangyang; Jiang, Liwei; Jia, Wenxu; Wang, Han; Fan, Angela; Wang, Dongli; Shi, Xuanling; Fang, Xianyang; Hammel, Michal; Wang, Shuying; Wang, Xinquan; Zhang, Linqi |
2018 |
2018-07-10 |
None |
N |
PMC7104183 |
29996104.0 |
10.1016/j.celrep.2018.06.041 |
mb1vzj0r |
0.647610 |
Ivarsson_2012, Smith_2003, UNKNOWN_1987, Chang_2000 |
Zhou_2019 |
| 35 |
Wang_2020 |
Structural and Functional Basis of SARS-CoV-2 Entry by Using Human ACE2 |
Wang, Qihui; Zhang, Yanfang; Wu, Lili; Niu, Sheng; Song, Chunli; Zhang, Zengyuan; Lu, Guangwen; Qiao, Chengpeng; Hu, Yu; Yuen, Kwok-Yung; Wang, Qisheng; Zhou, Huan; Yan, Jinghua; Qi, Jianxun |
2020 |
2020-04-09 |
PMC |
Y |
|
|
10.1016/j.cell.2020.03.045 |
6nd9fmz3 |
0.622622 |
Callison_1999, UNKNOWN_1987, Zeng_2004, Ivarsson_2012 |
Joyce_2020, Yuan_2020 |
| 36 |
Lei_C_2020 |
Potent neutralization of 2019 novel coronavirus by recombinant ACE2-Ig |
Changhai Lei; Wenyan Fu; Kewen Qian; Tian Li; Sheng Zhang; Min Ding; Shi Hu |
2020 |
2020-02-02 |
BioRxiv |
Y |
|
|
10.1101/2020.02.01.929976 |
aeuy92bx |
0.622418 |
UNKNOWN_1987 |
|
| 37 |
Brielle_2020 |
The SARS-CoV-2 exerts a distinctive strategy for interacting with the ACE2 human receptor |
Esther S. Brielle; Dina Schneidman-Duhovny; Michal Linial |
2020 |
2020-03-12 |
BioRxiv |
Y |
|
|
10.1101/2020.03.10.986398 |
jpkxjn6e |
0.621279 |
Ivarsson_2012, Li_F_2016, Chan_2016 |
Joyce_2020 |
| 38 |
Wong_2017 |
Receptor-binding loops in alphacoronavirus adaptation and evolution |
Wong, Alan H. M.; Tomlinson, Aidan C. A.; Zhou, Dongxia; Satkunarajah, Malathy; Chen, Kevin; Sharon, Chetna; Desforges, Marc; Talbot, Pierre J.; Rini, James M. |
2017 |
2017-11-23 |
COMM-USE |
N |
PMC5701055 |
29170370.0 |
10.1038/s41467-017-01706-x |
qffg6r91 |
0.617389 |
Ivarsson_2012, UNKNOWN_1987, Callison_1999 |
|
| 39 |
Othman_2020 |
In silico study of the spike protein from SARS-CoV-2 interaction with ACE2: similarity with SARS-CoV, hot-spot analysis and effect of the receptor polymorphism |
Houcemeddine Othman; Zied Bouslama; Jean-Tristan Brandenburg; Jorge da Rocha; Yosr Hamdi; Kais Ghedira; Najet-Srairi Abid; Scott Hazelhurst |
2020 |
2020-03-07 |
BioRxiv |
Y |
|
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10.1101/2020.03.04.976027 |
wynyrumi |
0.616306 |
Ivarsson_2012, UNKNOWN_1987 |
Zhang_2009, Lupala_2020 |
| 40 |
Struck_2012 |
A hexapeptide of the receptor-binding domain of SARS corona virus spike protein blocks viral entry into host cells via the human receptor ACE2 |
Struck, Anna-Winona; Axmann, Marco; Pfefferle, Susanne; Drosten, Christian; Meyer, Bernd |
2012 |
2012-06-30 |
PMC |
N |
PMC7114193 |
22265858.0 |
10.1016/j.antiviral.2011.12.012 |
f5lmstyn |
0.612158 |
|
Yuan_2004, Guillén_2009 |
| 41 |
Wrapp_2019 |
The 3.1-Angstrom Cryo-electron Microscopy Structure of the Porcine Epidemic Diarrhea Virus Spike Protein in the Prefusion Conformation |
Wrapp, Daniel; McLellan, Jason S. |
2019 |
2019-11-13 |
COMM-USE |
N |
PMC6854500 |
31534041.0 |
10.1128/jvi.00923-19 |
acru849v |
0.611365 |
Gomis-Rüth_2003, Li_F_2016 |
Effantin_2016, Walls_2016, Yang_2020 |
| 42 |
Lupala_2020 |
Computational simulations reveal the binding dynamics between human ACE2 and the receptor binding domain of SARS-CoV-2 spike protein |
Cecylia S. Lupala; Xuanxuan Li; Jian Lei; Hong Chen; Jianxun Qi; Haiguang Liu; Xiao-dong Su |
2020 |
2020-03-27 |
BioRxiv |
Y |
|
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10.1101/2020.03.24.005561 |
kifqgskc |
0.594818 |
Ivarsson_2012, UNKNOWN_1987, Callison_1999, Smith_2003 |
Zhang_2009, Guillén_2009, Chowdhury_2020, Wang_2020 |
| 43 |
Yan_R_2020 |
Structure of dimeric full-length human ACE2 in complex with B0AT1 |
Renhong Yan; Yuanyuan Zhang; Yaning Li; Lu Xia; Qiang Zhou |
2020 |
2020-02-18 |
BioRxiv |
Y |
|
|
10.1101/2020.02.17.951848 |
sty7myg4 |
0.584839 |
UNKNOWN_1987, Gomis-Rüth_2003, Ivarsson_2012 |
Zhang_2009 |
| 44 |
Lung_2020 |
The potential SARS-CoV-2 entry inhibitor |
Jrhau Lung; Yu-Shih Lin; Yao-Hsu Yang; Yu-Lun Chou; Geng-He Chang; Ming-Shao Tsai; Cheng-Ming Hsu; Reming-Albert Yeh; Li-Hsin Shu; Yu-Ching Cheng; Hung Te Liu; Ching-Yuan Wu |
2020 |
2020-03-26 |
BioRxiv |
Y |
|
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10.1101/2020.03.26.009803 |
7w79zeib |
0.578084 |
UNKNOWN_1987, Callison_1999, Smith_2003, Ivarsson_2012 |
Yuan_2004, Veiga_2006 |
| 45 |
Chowdhury_2020 |
Biophysical characterization of the SARS-CoV2 spike protein binding with the ACE2 receptor explains increased COVID-19 pathogenesis |
Ratul Chowdhury; Costas D Maranas |
2020 |
2020-03-31 |
BioRxiv |
Y |
|
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10.1101/2020.03.30.015891 |
lotyldfd |
0.577563 |
UNKNOWN_1987, Smith_2003, Ivarsson_2012, Chang_2000 |
|
| 46 |
Huang_2020 |
Computational Design of Peptides to Block Binding of the SARS-CoV-2 Spike Protein to Human ACE2 |
Xiaoqiang Huang; Robin Pearce; Yang Zhang |
2020 |
2020-03-31 |
BioRxiv |
Y |
|
|
10.1101/2020.03.28.013607 |
imkeghfd |
0.577016 |
Ivarsson_2012 |
Yuan_2004, Veiga_2006, Guillén_2009, Zhang_2020 |
| 47 |
Cheng_2019 |
Crystal structure of the S1 subunit N-terminal domain from DcCoV UAE-HKU23 spike protein |
Cheng, Yanwei; He, Bin; Yang, Jing; Ye, Fei; Lin, Sheng; Yang, Fanli; Chen, Zimin; Chen, Zhujun; Cao, Yu; Lu, Guangwen |
2019 |
2019-09-30 |
PMC |
N |
PMC7112003 |
31279241.0 |
10.1016/j.virol.2019.06.015 |
fsv5cuxe |
0.576312 |
Ivarsson_2012, UNKNOWN_1987, Choudhury_2017 |
Voß_D_2009, Kanitz_2019 |
| 48 |
Sun_Y_2018 |
Characterization of the interaction between recombinant porcine aminopeptidase N and spike glycoprotein of porcine epidemic diarrhea virus |
Sun, Yan-gang; Li, Rui; Jiang, Longguang; Qiao, Songlin; Zhi, Yubao; Chen, Xin-xin; Xie, Sha; Wu, Jiawei; Li, Xuewu; Deng, Ruiguang; Zhang, Gaiping |
2018 |
2018-10-01 |
PMC |
N |
PMC7112428 |
29802920.0 |
10.1016/j.ijbiomac.2018.05.167 |
v09m2fzw |
0.571786 |
|
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| 49 |
Forni_2015 |
The heptad repeat region is a major selection target in MERS-CoV and related coronaviruses |
Forni, Diego; Filippi, Giulia; Cagliani, Rachele; De Gioia, Luca; Pozzoli, Uberto; Al-Daghri, Nasser; Clerici, Mario; Sironi, Manuela |
2015 |
2015-09-25 |
COMM-USE |
N |
PMC4585914 |
26404138.0 |
10.1038/srep14480 |
9t7v7ipt |
0.567246 |
Callison_1999 |
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Vashi_2020 |
Understanding the B and T cells epitopes of spike protein of severe respiratory syndrome coronavirus-2: A computational way to predict the immunogens |
Yoya Vashi; Vipin Jagrit; Sachin Kumar |
2020 |
2020-04-10 |
BioRxiv |
Y |
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10.1101/2020.04.08.013516 |
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0.566298 |
Callison_1999 |
Choy_2004 |
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The functional motif of SARS-CoV S protein involved in the interaction with ACE2 |
Zhang, Yi; Wang, Wei; Gao, Jin-rong; Ye, Li; Fang, Xiao-nan; Zeng, Ying-chun; Wu, Zheng-hui; She, Ying-long; Ye, Lin-bai |
2009 |
2009-09-16 |
PMC |
N |
PMC7090955 |
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10.1007/s12250-007-0054-8 |
gfiqjgxg |
0.564714 |
UNKNOWN_1987, UNKNOWN_1993, Chang_2000 |
Guillén_2009, Chen_2009, Voß_D_2009 |
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Yang_2020 |
Cryo-EM analysis of a feline coronavirus spike protein reveals a unique structure and camouflaging glycans |
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2020 |
2020-01-03 |
None |
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PMC6983407 |
31900356.0 |
10.1073/pnas.1908898117 |
ddh4wym7 |
0.562844 |
Gomis-Rüth_2003, Callison_1999 |
Walls_2016, Effantin_2016, Walls_2016 |
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Ibrahim_2020 |
COVID-19 spike-host cell receptor GRP78 binding site prediction |
Ibrahim, Ibrahim M.; Abdelmalek, Doaa H.; Elshahat, Mohammed E.; Elfiky, Abdo A. |
2020 |
2020-05-31 |
PMC |
Y |
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32169481.0 |
10.1016/j.jinf.2020.02.026 |
j10308i3 |
0.557437 |
Ivarsson_2012, UNKNOWN_1987, Smith_2003, Chan_2016 |
Shajahan_2020, Guillén_2009 |
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Structure of mouse coronavirus spike protein complexed with receptor reveals mechanism for viral entry |
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2020 |
2020-03-09 |
COMM-USE |
N |
PMC7082060 |
32150576.0 |
10.1371/journal.ppat.1008392 |
daj4zcm1 |
0.554892 |
Li_F_2016, Ivarsson_2012, Gomis-Rüth_2003 |
Beniac_2007 |
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Joyce_2020 |
A Cryptic Site of Vulnerability on the Receptor Binding Domain of the SARS-CoV-2 Spike Glycoprotein |
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2020 |
2020-03-17 |
BioRxiv |
Y |
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10.1101/2020.03.15.992883 |
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0.551375 |
UNKNOWN_1987 |
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The human coronavirus HCoV-229E S-protein structure and receptor binding |
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2019 |
2019-10-25 |
COMM-USE |
N |
PMC6970540 |
31650956.0 |
10.7554/elife.51230 |
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0.551164 |
Gomis-Rüth_2003, Ivarsson_2012, UNKNOWN_1987 |
Voß_D_2009 |
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Differential Antibody Recognition by Novel SARS-CoV-2 and SARS-CoV Spike Protein Receptor Binding Domains: Mechanistic Insights and Implications for the Design of Diagnostics and Therapeutics |
Ilda D’Annessa; Filippo Marchetti; Giorgio Colombo |
2020 |
2020-03-14 |
BioRxiv |
Y |
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10.1101/2020.03.13.990267 |
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0.542862 |
Ivarsson_2012, Liu_Z_2008 |
Giron_2020 |
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Structural definition of a neutralization epitope on the N-terminal domain of MERS-CoV spike glycoprotein |
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2019 |
2019-07-11 |
COMM-USE |
N |
PMC6624210 |
31296843.0 |
10.1038/s41467-019-10897-4 |
oj1re34k |
0.539163 |
Smith_2003, Ivarsson_2012 |
Zhang_2018 |
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Severe acute respiratory syndrome coronavirus entry into host cells: Opportunities for therapeutic intervention |
Yeung, Kap‐Sun; Yamanaka, Gregory A.; Meanwell, Nicholas A. |
2006 |
2006-03-06 |
PMC |
N |
PMC7168515 |
16521129.0 |
10.1002/med.20055 |
mt8aqu8j |
0.530066 |
UNKNOWN_1987 |
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Kirchdoerfer_2016 |
Prefusion structure of a human coronavirus spike protein |
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2016 |
2016-03-01 |
PMC |
N |
PMC4860016 |
26935699.0 |
10.1038/nature17200 |
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0.525345 |
Ivarsson_2012, Gomis-Rüth_2003, UNKNOWN_1987 |
Voß_D_2009 |
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The 3D structure analysis of SARS-CoV S1 protein reveals a link to influenza virus neuraminidase and implications for drug and antibody discovery |
Zhang, Xue Wu; Yap, Yee Leng |
2004 |
2004-07-26 |
PMC |
N |
PMC7126208 |
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10.1016/j.theochem.2004.04.065 |
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0.525284 |
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Wu_Zhang_2004, Guillén_2009 |
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Gur_M_2020 |
Exploring Conformational Transition of 2019 Novel Coronavirus Spike Glycoprotein Between Its Closed and Open States Using Molecular Dynamics Simulations |
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2020 |
2020-04-19 |
BioRxiv |
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10.1101/2020.04.17.047324 |
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UNKNOWN_1987, Ivarsson_2012, Callison_1999, Chan_2016 |
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Sialic Acid Binding Properties of Soluble Coronavirus Spike (S1) Proteins: Differences between Infectious Bronchitis Virus and Transmissible Gastroenteritis Virus |
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2013 |
2013-07-26 |
COMM-USE |
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PMC3761233 |
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10.3390/v5081924 |
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0.518863 |
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Receptor-binding domain of SARS-CoV spike protein induces highly potent neutralizing antibodies: implication for developing subunit vaccine |
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2004 |
2004-11-12 |
PMC |
N |
PMC7092904 |
15474494.0 |
10.1016/j.bbrc.2004.09.106 |
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0.518153 |
Zeng_2004 |
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Li_F_2016 |
Structure, Function, and Evolution of Coronavirus Spike Proteins |
Li, Fang |
2016 |
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PMC |
N |
PMC5457962 |
27578435.0 |
10.1146/annurev-virology-110615-042301 |
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0.513581 |
Gomis-Rüth_2003 |
Chang_2000, Beniac_2007 |
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Tagliamonte_2020 |
Re-insights into origin and adaptation of SARS-CoV-2 |
Massimiliano S Tagliamonte; Nabil Adid; Giovanni Chillemi; Marco Salemi; Carla N Mavian |
2020 |
2020-03-31 |
BioRxiv |
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10.1101/2020.03.30.015685 |
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UNKNOWN_1987, Chang_2000, Ivarsson_2012 |
Veiga_2006, Yuan_2004 |
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Glycoinformatics approach for identifying target positions to inhibit initial binding of SARS-CoV-2 S1 protein to the host cell |
Muhammet Uslupehlivan; Ecem Sener |
2020 |
2020-03-25 |
BioRxiv |
Y |
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10.1101/2020.03.25.007898 |
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Ivarsson_2012, Callison_1999 |
Zhang_2009, Guillén_2009, Voß_D_2009 |
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Cryo-electron microscopy structures of the SARS-CoV spike glycoprotein reveal a prerequisite conformational state for receptor binding |
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2016 |
2016-12-23 |
PMC |
N |
PMC5223232 |
28008928.0 |
10.1038/cr.2016.152 |
rrqevyj4 |
0.485262 |
Gomis-Rüth_2003, UNKNOWN_1987, Li_F_2016 |
Song_2018, Voß_D_2009, Walls_2016 |
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A single amino acid substitution (R441A) in the receptor-binding domain of SARS coronavirus spike protein disrupts the antigenic structure and binding activity |
He, Yuxian; Li, Jingjing; Jiang, Shibo |
2006 |
2006-05-26 |
PMC |
N |
PMC7092835 |
16615996.0 |
10.1016/j.bbrc.2006.03.139 |
jaom3p6s |
0.482083 |
UNKNOWN_1987, Chang_2000 |
He_Y_2004 |
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Chen_2020 |
Distinct Structural Flexibility within SARS-CoV-2 Spike Protein Reveals Potential Therapeutic Targets |
Serena H. Chen; M. Todd Young; John Gounley; Christopher Stanley; Debsindhu Bhowmik |
2020 |
2020-04-18 |
BioRxiv |
Y |
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10.1101/2020.04.17.047548 |
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0.481912 |
Callison_1999, UNKNOWN_1987, Li_F_2016, Ivarsson_2012 |
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Bernini_2004 |
Prediction of quaternary assembly of SARS coronavirus peplomer |
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2004 |
2004-12-24 |
PMC |
N |
PMC7092937 |
15555555.0 |
10.1016/j.bbrc.2004.10.156 |
pgiqxd7v |
0.461953 |
Callison_1999, UNKNOWN_1987, Li_F_2016 |
Spiga_2003, Guillén_2009 |
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Hurdiss_2020 |
Cryo-EM structure of coronavirus-HKU1 haemagglutinin esterase reveals architectural changes arising from prolonged circulation in humans |
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2020 |
2020-03-25 |
BioRxiv |
N |
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10.1101/2020.03.25.998963 |
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UNKNOWN_1987, Gomis-Rüth_2003 |
Effantin_2016 |
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Characterization of humoral responses in mice immunized with plasmid DNAs encoding SARS-CoV spike gene fragments |
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2004 |
2004-03-19 |
PMC |
N |
PMC7111006 |
14985131.0 |
10.1016/j.bbrc.2004.01.166 |
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0.459464 |
Callison_1999 |
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Saha_2020 |
A virus that has gone viral: Amino acid mutation in S protein of Indian isolate of Coronavirus COVID-19 might impact receptor binding and thus infectivity |
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2020 |
2020-04-11 |
BioRxiv |
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10.1101/2020.04.07.029132 |
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Callison_1999 |
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On the interactions of the receptor-binding domain of SARS-CoV-1 and SARS-CoV-2 spike proteins with monoclonal antibodies and the receptor ACE2 |
Carolina Corrêa Giron; Aatto Laaksonen; Fernando L. Barroso da Silva |
2020 |
2020-04-10 |
BioRxiv |
Y |
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10.1101/2020.04.05.026377 |
4mv6qwpc |
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Ivarsson_2012, Callison_1999, Chan_2016 |
Joyce_2020, Yuan_2020 |
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Infectious Bronchitis Virus S2 Gene Sequence Variability May Affect S1 Subunit Specific Antibody Binding |
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1999 |
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PMC |
N |
PMC7089226 |
10541018.0 |
10.1023/a:1008179208217 |
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0.456887 |
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The SARS Coronavirus S Glycoprotein Receptor Binding Domain: Fine Mapping and Functional Characterization |
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2005 |
2005-08-25 |
COMM-USE |
N |
PMC1236967 |
16122388.0 |
10.1186/1743-422x-2-73 |
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0.456479 |
UNKNOWN_1987, Yang_2012, Smith_2003, Chang_2000 |
Voß_D_2009, Guillén_2009 |
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Ca2+ ions promote fusion of Middle East Respiratory Syndrome coronavirus with host cells and increase infectivity |
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2019 |
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BioRxiv |
N |
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10.1101/2019.12.18.881391 |
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UNKNOWN_1987, Chang_2000 |
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Reconstitution of the receptor-binding motif of the SARS coronavirus |
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2015 |
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PMC |
N |
PMC7107155 |
26487711.0 |
10.1093/protein/gzv052 |
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0.448167 |
UNKNOWN_1987 |
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Roy_S_2020 |
Dynamical asymmetry exposes 2019-nCoV prefusion spike |
Susmita Roy |
2020 |
2020-04-22 |
BioRxiv |
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10.1101/2020.04.20.052290 |
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Ivarsson_2012, Li_F_2016 |
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Identification of a Putative Crimean-Congo Hemorrhagic Fever Virus Entry Factor |
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2011 |
2011-07-01 |
PMC |
N |
PMC3155881 |
21723257.0 |
10.1016/j.bbrc.2011.06.109 |
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0.435517 |
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Bongini_2020 |
A possible strategy to fight COVID-19: Interfering with spike glycoprotein trimerization |
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2020 |
2020-04-09 |
PMC |
Y |
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10.1016/j.bbrc.2020.04.007 |
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Ivarsson_2012, Gomis-Rüth_2003, Li_F_2016 |
Guillén_2009, Yuan_2004 |
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A molecular docking model of SARS-CoV S1 protein in complex with its receptor, human ACE2 |
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2005 |
2005-06-30 |
PMC |
N |
PMC7106554 |
15979045.0 |
10.1016/j.compbiolchem.2005.04.008 |
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0.426654 |
Callison_1999, Ivarsson_2012, UNKNOWN_1987, Yang_2012 |
Zhang_2009, Guillén_2009, Wang_2013 |
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Insights from molecular structure predictions of the infectious bronchitis virus S1 spike glycoprotein |
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2016 |
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PMC |
N |
PMC7106061 |
27836775.0 |
10.1016/j.meegid.2016.11.006 |
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0.426169 |
Callison_1999 |
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The SARS-CoV S glycoprotein: expression and functional characterization |
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2003 |
2003-12-26 |
PMC |
N |
PMC7111010 |
14651994.0 |
10.1016/j.bbrc.2003.11.054 |
85if4mnu |
0.421568 |
UNKNOWN_1987, Chang_2000 |
Chen_2009, Voß_D_2009, Ma_H_2008 |
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Identification of critical determinants on ACE2 for SARS-CoV entry and development of a potent entry inhibitor |
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2006 |
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PMC |
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PMC7111894 |
16510163.0 |
10.1016/j.virol.2006.01.029 |
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Yuan_2004, Veiga_2006, Zhang_2009 |
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Cryo-EM structures of MERS-CoV and SARS-CoV spike glycoproteins reveal the dynamic receptor binding domains |
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2017 |
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COMM-USE |
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PMC5394239 |
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10.1038/ncomms15092 |
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Gomis-Rüth_2003 |
Song_2018, Yuan_2004 |
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Breaking the Enigma Code of Angiotensin II Type 2 Receptor Signaling |
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PMC |
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PMC7154512 |
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10.1016/j.str.2020.03.004 |
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Ivarsson_2012 |
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MERS coronavirus envelope protein has a single transmembrane domain that forms pentameric ion channels |
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2015 |
2015-04-02 |
PMC |
N |
PMC7114494 |
25733052.0 |
10.1016/j.virusres.2015.02.023 |
bzk5im1z |
0.402183 |
UNKNOWN_1987 |
Guillén_2009 |
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Reasoning of spike glycoproteins being more vulnerable to mutations among 158 coronavirus proteins from different species |
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2004 |
2004-12-09 |
PMC |
N |
PMC7088192 |
15592899.0 |
10.1007/s00894-004-0210-0 |
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Callison_1999, UNKNOWN_1987, Chang_2000 |
Shajahan_2020 |
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2016 |
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PMC |
N |
PMC7091117 |
26993639.0 |
10.1007/s12104-016-9676-9 |
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0.396620 |
Ivarsson_2012, UNKNOWN_1987 |
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The S2 subunit of the spike glycoprotein of bovine coronavirus mediates membrane fusion in insect cells |
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PMC |
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PMC7131255 |
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10.1016/0042-6822(91)90045-d |
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Zeng_2004 |
Chang_2000 |
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Searching for an ideal vaccine candidate among different MERS coronavirus receptor-binding fragments—The importance of immunofocusing in subunit vaccine design |
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PMC4194190 |
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10.1016/j.vaccine.2014.08.086 |
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PMC |
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PMC7114368 |
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10.1016/j.virusres.2011.06.029 |
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UNKNOWN_1987, Chang_2000, UNKNOWN_1993 |
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2020 |
2020-03-30 |
COMM-USE |
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PMC7118126 |
32231345.0 |
10.1038/s41422-020-0305-x |
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Zhu_Y_2020, Xia_S_2020, Veiga_2006 |
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Cryo-EM structure of the SARS coronavirus spike glycoprotein in complex with its host cell receptor ACE2 |
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2018 |
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COMM-USE |
N |
PMC6107290 |
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10.1371/journal.ppat.1007236 |
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Gomis-Rüth_2003, UNKNOWN_1987, Li_F_2016 |
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Two Glycosylation Sites in H5N1 Influenza Virus Hemagglutinin That Affect Binding Preference by Computer-Based Analysis |
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COMM-USE |
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PMC3375263 |
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10.1371/journal.pone.0038794 |
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Callison_1999, UNKNOWN_1987 |
Xu_Q_2018, Voß_D_2009 |
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The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) envelope (E) protein harbors a conserved BH3-like motif |
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2020 |
2020-04-10 |
BioRxiv |
Y |
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10.1101/2020.04.09.033522 |
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Kang_2020 |
Crystal structure of SARS-CoV-2 nucleocapsid protein RNA binding domain reveals potential unique drug targeting sites |
Sisi Kang; Mei Yang; Zhongsi Hong; Liping Zhang; Zhaoxia Huang; Xiaoxue Chen; Suhua He; Ziliang Zhou; Zhechong Zhou; Qiuyue Chen; Yan Yan; Changsheng Zhang; Hong Shan; Shoudeng Chen |
2020 |
2020-03-07 |
BioRxiv |
Y |
|
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10.1101/2020.03.06.977876 |
r88hpbxp |
0.362681 |
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| 100 |
Parsons_2019 |
Glycosylation of the viral attachment protein of avian coronavirus is essential for host cell and receptor binding |
Parsons, Lisa M.; Bouwman, Kim M.; Azurmendi, Hugo; de Vries, Robert P.; Cipollo, John F.; Verheije, Monique H. |
2019 |
2019-03-22 |
PMC |
N |
PMC6514631 |
30902814.0 |
10.1074/jbc.ra119.007532 |
u0amf1oh |
0.360850 |
Yang_2012, UNKNOWN_1987, Callison_1999 |
Voß_D_2009 |
| 101 |
Zhu_Y_2020 |
Design of potent membrane fusion inhibitors against SARS-CoV-2, an emerging coronavirus with high fusogenic activity |
Yuanmei Zhu; Danwei Yu; Hongxia Yan; Huihui Chong; Yuxian He |
2020 |
2020-03-28 |
BioRxiv |
Y |
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10.1101/2020.03.26.009233 |
cogk5kig |
0.355254 |
UNKNOWN_1987 |
Veiga_2006, Yuan_2004 |
| 102 |
Zhou_2019 |
Crystallization and Structural Determination of the Receptor-Binding Domain of MERS-CoV Spike Glycoprotein |
Zhou, Haixia; Zhang, Shuyuan; Wang, Xinquan |
2019 |
2019-09-14 |
PMC |
N |
PMC7123399 |
31883086.0 |
10.1007/978-1-0716-0211-9_4 |
9piio754 |
0.355240 |
Ivarsson_2012, Dey_A_2009 |
Zhang_2018, Voß_D_2009 |
| 103 |
Grant_2020 |
3D Models of glycosylated SARS-CoV-2 spike protein suggest challenges and opportunities for vaccine development |
Oliver C. Grant; David Montgomery; Keigo Ito; Robert J. Woods |
2020 |
2020-04-09 |
BioRxiv |
Y |
|
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10.1101/2020.04.07.030445 |
rwlpkf7n |
0.353493 |
Callison_1999 |
Voß_D_2009, Shajahan_2020, Guillén_2009 |
| 104 |
Desautels_2020 |
Rapid in silico design of antibodies targeting SARS-CoV-2 using machine learning and supercomputing |
Thomas Desautels; Adam Zemla; Edmond Lau; Magdalena Franco; Daniel Faissol |
2020 |
2020-04-10 |
BioRxiv |
Y |
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10.1101/2020.04.03.024885 |
kg2j0dqy |
0.352881 |
Liu_Z_2008 |
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| 105 |
Han_Y_2020 |
Computational Design of ACE2-Based Peptide Inhibitors of SARS-CoV-2 |
Han, Yanxiao; Král, Petr |
2020 |
2020-04-14 |
PMC |
Y |
PMC7163933 |
32286790.0 |
10.1021/acsnano.0c02857 |
f9qcabcx |
0.351180 |
Ivarsson_2012, Smith_2003, Chan_2016, UNKNOWN_1987 |
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| 106 |
Tarnovitski_2006 |
Mapping a Neutralizing Epitope on the SARS Coronavirus Spike Protein: Computational Prediction Based on Affinity-selected Peptides |
Tarnovitski, Natalia; Matthews, Leslie J.; Sui, Jianhua; Gershoni, Jonathan M.; Marasco, Wayne A. |
2006 |
2006-05-26 |
PMC |
N |
PMC7094247 |
16630634.0 |
10.1016/j.jmb.2006.03.008 |
8i5okszf |
0.337786 |
Callison_1999 |
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Spiga_2003 |
Molecular modelling of S1 and S2 subunits of SARS coronavirus spike glycoprotein |
Spiga, Ottavia; Bernini, Andrea; Ciutti, Arianna; Chiellini, Stefano; Menciassi, Nicola; Finetti, Francesca; Causarono, Vincenza; Anselmi, Francesca; Prischi, Filippo; Niccolai, Neri |
2003 |
2003-10-10 |
PMC |
N |
PMC7110993 |
14511651.0 |
10.1016/j.bbrc.2003.08.122 |
imyfo83x |
0.337407 |
Callison_1999 |
Guillén_2009, Voß_D_2009, Shajahan_2020 |
| 108 |
Beniac_2007 |
Conformational Reorganization of the SARS Coronavirus Spike Following Receptor Binding: Implications for Membrane Fusion |
Beniac, Daniel R.; deVarennes, Shauna L.; Andonov, Anton; He, Runtao; Booth, Tim F. |
2007 |
2007-10-24 |
COMM-USE |
N |
PMC2034598 |
17957264.0 |
10.1371/journal.pone.0001082 |
mcsdem7y |
0.333286 |
UNKNOWN_1987, Gomis-Rüth_2003, Chang_2000 |
Voß_D_2009, Guillén_2009 |
| 109 |
Milanetti_2020 |
In-Silico evidence for two receptors based strategy of SARS-CoV-2 |
Edoardo Milanetti; Mattia Miotto; Lorenzo Di Rienzo; Michele Monti; Giorgio Gosti; Giancarlo Ruocco |
2020 |
2020-03-27 |
BioRxiv |
Y |
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10.1101/2020.03.24.006197 |
ob37jivi |
0.325808 |
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Zhang_2009, Yap_Y_2005 |
| 110 |
Zhang_2007 |
Computational characterization and design of SARS coronavirus receptor recognition and antibody neutralization |
Zhang, Yuan; Zheng, Nan; Zhong, Yang |
2007 |
2007-04-30 |
PMC |
N |
PMC7106420 |
17374510.0 |
10.1016/j.compbiolchem.2007.02.005 |
maa8c4a4 |
0.323910 |
Ivarsson_2012, Liu_Z_2008 |
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| 111 |
He_Y_2006 |
Identification and characterization of novel neutralizing epitopes in the receptor-binding domain of SARS-CoV spike protein: Revealing the critical antigenic determinants in inactivated SARS-CoV vaccine |
He, Yuxian; Li, Jingjing; Du, Lanying; Yan, Xuxia; Hu, Guangan; Zhou, Yusen; Jiang, Shibo |
2006 |
2006-06-29 |
PMC |
N |
PMC7115380 |
16725238.0 |
10.1016/j.vaccine.2006.04.054 |
arrhvqwa |
0.319015 |
UNKNOWN_1987, Zeng_2004 |
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| 112 |
Prabakaran_2004 |
A model of the ACE2 structure and function as a SARS-CoV receptor |
Prabakaran, Ponraj; Xiao, Xiaodong; Dimitrov, Dimiter S |
2004 |
2004-01-30 |
PMC |
N |
PMC7117316 |
14715271.0 |
10.1016/j.bbrc.2003.12.081 |
yvbsvalz |
0.312017 |
UNKNOWN_1987, Ivarsson_2012, Callison_1999, Smith_2003 |
Zhang_2009, Guillén_2009 |
| 113 |
Ou_X_2017 |
Crystal structure of the receptor binding domain of the spike glycoprotein of human betacoronavirus HKU1 |
Ou, Xiuyuan; Guan, Hongxin; Qin, Bo; Mu, Zhixia; Wojdyla, Justyna A.; Wang, Meitian; Dominguez, Samuel R.; Qian, Zhaohui; Cui, Sheng |
2017 |
2017-05-23 |
COMM-USE |
N |
PMC5529671 |
28534504.0 |
10.1038/ncomms15216 |
83x77xte |
0.310376 |
UNKNOWN_1987, Gomis-Rüth_2003 |
Guillén_2009, Voß_D_2009 |
| 114 |
Shang_2018 |
Cryo-EM structure of infectious bronchitis coronavirus spike protein reveals structural and functional evolution of coronavirus spike proteins |
Shang, Jian; Zheng, Yuan; Yang, Yang; Liu, Chang; Geng, Qibin; Luo, Chuming; Zhang, Wei; Li, Fang |
2018 |
2018-04-23 |
COMM-USE |
N |
PMC5933801 |
29684066.0 |
10.1371/journal.ppat.1007009 |
s0wmll4q |
0.309761 |
Callison_1999, Li_F_2016, Ivarsson_2012 |
Walls_2016, Voß_D_2009, Shajahan_2020 |
| 115 |
Sadasivan_2017 |
Cytoplasmic tail of coronavirus spike protein has intracellular targeting signals |
Sadasivan, Jibin; Singh, Manmeet; Sarma, Jayasri Das |
2017 |
2017-04-18 |
PMC |
N |
PMC7091306 |
28569247.0 |
10.1007/s12038-017-9676-7 |
7sjw5ci7 |
0.308547 |
UNKNOWN_1987, UNKNOWN_1993, UNKNOWN_1993 |
Chang_2000 |
| 116 |
Chen_2005 |
Function of HAb18G/CD147 in Invasion of Host Cells by Severe Acute Respiratory Syndrome Coronavirus |
Chen, Zhinan; Mi, Li; Xu, Jing; Yu, Jiyun; Wang, Xianhui; Jiang, Jianli; Xing, Jinliang; Shang, Peng; Qian, Airong; Li, Yu; Shaw, Peter X.; Wang, Jianwei; Duan, Shumin; Ding, Jin; Fan, Chunmei; Zhang, Yang; Yang, Yong; Yu, Xiaoling; Feng, Qiang; Li, Biehu; Yao, Xiying; Zhang, Zheng; Li, Ling; Xue, Xiaoping; Zhu, Ping |
2005 |
2005-03-01 |
PMC |
N |
PMC7110046 |
15688292.0 |
10.1086/427811 |
uy2dlamj |
0.304808 |
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Pimentel_2009 |
Peptide Nanoparticles as Novel Immunogens: Design and Analysis of a Prototypic Severe Acute Respiratory Syndrome Vaccine |
Pimentel, Tais A. P. F.; Yan, Zhe; Jeffers, Scott A.; Holmes, Kathryn V.; Hodges, Robert S.; Burkhard, Peter |
2009 |
2009-01-01 |
None |
Y |
PMC2756483 |
19152635.0 |
10.1111/j.1747-0285.2008.00746.x |
tkzvtrxx |
0.303072 |
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| 118 |
Alsaadi_2019 |
A Fusion Peptide in the Spike Protein of MERS Coronavirus |
Alsaadi, Entedar A. J.; Neuman, Benjamin W.; Jones, Ian M. |
2019 |
2019-09-05 |
COMM-USE |
N |
PMC6784214 |
31491938.0 |
10.3390/v11090825 |
nho5ejrf |
0.302804 |
UNKNOWN_1987, Chang_2000 |
Guillén_2009, Peisajovich_2000 |
| 119 |
Xia_S_2020 |
Inhibition of SARS-CoV-2 infection (previously 2019-nCoV) by a highly potent pan-coronavirus fusion inhibitor targeting its spike protein that harbors a high capacity to mediate membrane fusion |
Shuai Xia; Meiqin Liu; Chao Wang; Wei Xu; Qiaoshuai Lan; Siliang Feng; Feifei Qi; Linlin Bao; Lanying Du; Shuwen Liu; Chuan Qin; Fei Sun; Zhengli Shi; Yun Zhu; Shibo Jiang; Lu Lu |
2020 |
2020-03-12 |
BioRxiv |
Y |
|
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10.1101/2020.03.09.983247 |
j5bepvvw |
0.300653 |
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Xia_S_2020, Zhu_Y_2020, Veiga_2006 |
| 120 |
Bzówka_2020 |
Molecular Dynamics Simulations Indicate the SARS-CoV-2 Mpro Is Not a Viable Target for Small-Molecule Inhibitors Design |
Maria Bzówka; Karolina Mitusińska; Agata Raczyńska; Aleksandra Samol; Jack Tuszyński; Artur Góra |
2020 |
2020-03-02 |
BioRxiv |
Y |
|
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10.1101/2020.02.27.968008 |
mp3a9c9u |
0.300074 |
Kirillova_2009, Liu_Z_2008 |
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