Histones Released by NETosis Enhance the Infectivity of SARS-CoV-2 by Bridging the Spike Protein Subunit 2 and Sialic Acid on Host Cells
Weiqi Hong,Jingyun Yang,Jun Zou,Zhenfei Bi,Cai He,Hong Lei,Xuemei He,Xue Li,Aqu Alu,Wenyan Ren,Zeng Wang,Xiaohua Jiang,Kunhong Zhong,Guowen Jia,Yun Yang,Wenhai Yu,Qing Huang,Mengli Yang,Yanan Zhou,Yuan Zhao,Dexuan Kuang,Junbin Wang,Haixuan Wang,Siyuan Chen,Min Luo,Ziqi Zhang,Tianqi Lu, Li Chen,Haiying Que,Zhiyao He,Qiu Sun,Wei Wang,Guobo Shen,Guangwen Lu,Zhiwei Zhao,Li Yang,Jinliang Yang,Zhenling Wang,Jiong Li,Xiangrong Song,Lunzhi Dai,Chong Chen,Jia Geng,Maling Gou,Lu Chen,Haohao Dong,Yong Peng,Canhua Huang,Zhiyong Qian,Wei Cheng,Changfa Fan,Yuquan Wei,Zhaoming Su,Aiping Tong,Shuaiyao Lu,Xiaozhong Peng,Xiawei Wei Cellular & molecular immunology(2022)
Key words
COVID-19,SARS-CoV-2,neutrophil extracellular traps,histones,sialic acid
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