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Structural Adaptations of Norovirus GII.17/13/21 Lineage through Two Distinct Evolutionary Paths
Author(s) -
Ying Qian,
Mohan Song,
Xi Jiang,
Ming Xia,
Jarek Meller,
Ming Tan,
Yutao Chen,
Xuemei Li,
Zihe Rao
Publication year - 2018
Publication title -
journal of virology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.617
H-Index - 292
eISSN - 1070-6321
pISSN - 0022-538X
DOI - 10.1128/jvi.01655-18
Subject(s) - glycan , biology , lineage (genetic) , norovirus , evolutionary biology , genetics , binding site , computational biology , gene , glycoprotein , virus
Our understanding of the molecular bases behind the interplays between human noroviruses and their host glycan ligands, as well as their evolutionary changes over time with alterations in their host ligand binding capability and host susceptibility, remains limited. By solving the crystal structures of the glycan ligand binding protruding (P) domains with or without glycan ligands of three representative noroviruses of the GII.17/13/21 genetic lineage, we elucidated the molecular bases of the human norovirus-glycan interactions of this special genetic lineage. We present solid evidence on how noroviruses of this genetic lineage evolved via different evolutionary paths to (i) optimize their glycan binding site for higher glycan binding function and (ii) acquire a completely new glycan binding site for new ligands. Our data shed light on the mechanism of the structural adaptations of human noroviruses through different evolutionary paths, facilitating our understanding of human norovirus adaptations, evolutions, and epidemiology.

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