- EMDB-43293: Cryo-EM structure of Tulane virus 9-6-17 variant capsid protein V... -
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基本情報
登録情報
データベース: EMDB / ID: EMD-43293
タイトル
Cryo-EM structure of Tulane virus 9-6-17 variant capsid protein VP1 9-14-18 without DTT treatment
マップデータ
試料
ウイルス: Tulane virus (ウイルス)
タンパク質・ペプチド: Capsid protein
キーワード
virion capsid / capsid protein / Tulane virus / VIRUS
機能・相同性
Calicivirus coat protein C-terminal / Calicivirus coat protein C-terminal / Calicivirus coat protein / Calicivirus coat protein / Viral coat protein subunit / Capsid protein
National Institutes of Health/National Institute Of Allergy and Infectious Diseases (NIH/NIAID)
AI111095
米国
引用
ジャーナル: Biomolecules / 年: 2024 タイトル: The 2.6 Å Structure of a Tulane Virus Variant with Minor Mutations Leading to Receptor Change. 著者: Chen Sun / Pengwei Huang / Xueyong Xu / Frank S Vago / Kunpeng Li / Thomas Klose / Xi Jason Jiang / Wen Jiang / 要旨: Human noroviruses (HuNoVs) are a major cause of acute gastroenteritis, contributing significantly to annual foodborne illness cases. However, studying these viruses has been challenging due to ...Human noroviruses (HuNoVs) are a major cause of acute gastroenteritis, contributing significantly to annual foodborne illness cases. However, studying these viruses has been challenging due to limitations in tissue culture techniques for over four decades. Tulane virus (TV) has emerged as a crucial surrogate for HuNoVs due to its close resemblance in amino acid composition and the availability of a robust cell culture system. Initially isolated from rhesus macaques in 2008, TV represents a novel belonging to the genus. Its significance lies in sharing the same host cell receptor, histo-blood group antigen (HBGA), as HuNoVs. In this study, we introduce, through cryo-electron microscopy (cryo-EM), the structure of a specific TV variant (the 9-6-17 TV) that has notably lost its ability to bind to its receptor, B-type HBGA-a finding confirmed using an enzyme-linked immunosorbent assay (ELISA). These results offer a profound insight into the genetic modifications occurring in TV that are necessary for adaptation to cell culture environments. This research significantly contributes to advancing our understanding of the genetic changes that are pivotal to successful adaptation, shedding light on fundamental aspects of evolution.