The molecular basis for SARS-CoV-2 binding to dog ACE2

被引:0
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作者
Zengyuan Zhang
Yanfang Zhang
Kefang Liu
Yan Li
Qiong Lu
Qingling Wang
Yuqin Zhang
Liang Wang
Hanyi Liao
Anqi Zheng
Sufang Ma
Zheng Fan
Huifang Li
Weijin Huang
Yuhai Bi
Xin Zhao
Qihui Wang
George F. Gao
Haixia Xiao
Zhou Tong
Jianxun Qi
Yeping Sun
机构
[1] CAS Key Laboratory of Pathogenic Microbiology and Immunology,Shanxi Natural Carbohydrate Resource Engineering Research Center, College of Food Science and Technology
[2] Institute of Microbiology,Savaid Medical School
[3] Chinese Academy of Sciences,undefined
[4] University of Chinese Academy of Sciences,undefined
[5] Tianjin Institute of Industrial Biotechnology,undefined
[6] Chinese Academy of Sciences,undefined
[7] Division of HIV/AIDS and Sex-Transmitted Virus Vaccines,undefined
[8] National Institutes for Food and Drug Control (NIFDC),undefined
[9] Northwest University,undefined
[10] Institute of Microbiology,undefined
[11] Chinese Academy of Sciences,undefined
[12] The Northern Medical District of the PLA General Hospital,undefined
[13] University of Chinese Academy of Sciences,undefined
来源
Nature Communications | / 12卷
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摘要
SARS-CoV-2 can infect many domestic animals, including dogs. Herein, we show that dog angiotensin-converting enzyme 2 (dACE2) can bind to the SARS-CoV-2 spike (S) protein receptor binding domain (RBD), and that both pseudotyped and authentic SARS-CoV-2 can infect dACE2-expressing cells. We solved the crystal structure of RBD in complex with dACE2 and found that the total number of contact residues, contact atoms, hydrogen bonds and salt bridges at the binding interface in this complex are slightly fewer than those in the complex of the RBD and human ACE2 (hACE2). This result is consistent with the fact that the binding affinity of RBD to dACE2 is lower than that of hACE2. We further show that a few important mutations in the RBD binding interface play a pivotal role in the binding affinity of RBD to both dACE2 and hACE2. Our work reveals a molecular basis for cross-species transmission and potential animal spread of SARS-CoV-2, and provides new clues to block the potential transmission chains of this virus.
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