The SL-I structural element of the 3' UTR region of West Nile virus participates in the regulation of viral translation [0.03%]
西尼罗病毒3'-UTR的SL-I结构元件参与调控病毒翻译
Cristina Romero-López,Pilar Bueno-Arribas,Alfredo Berzal-Herranz
Cristina Romero-López
The genome of West Nile virus (WNV) is a positive, ssRNA molecule, which encodes a single ORF flanked by UTRs (5' and 3' UTRs). These UTRs are enriched with structural RNA elements that play critical roles in the viral cycle, including tran...
Evolutionary and taxonomic insights into the genomic divergence of cowpea mild mottle virus: rapid evolution in replication-associated protein gene, but strong negative selection on coat protein gene [0.03%]
Cowpea轻型斑点病毒的基因组分歧的进化和分类学见解:复制相关蛋白基因的快速进化,但衣壳蛋白基因受到强烈的负向选择
Bruno Arcanjo Silva,João Marcos Fagundes Silva,Caterynne Melo Kauffmann et al.
Bruno Arcanjo Silva et al.
Carlavirus vignae, with the common name cowpea mild mottle virus (CPMMV), has become a widespread carlavirus infecting economically important crops worldwide. CPMMV is transmitted by whiteflies, whereas other members of the Carlavirus genus...
Further characterization of infection mechanisms and transmission dynamics of rustrela virus in rodent in vivo models [0.03%]
啮齿动物体内模型中锈相对论病毒的感染机制及传播动力学研究
Sophie-Celine Weinert,Lorenz Ulrich,Lukas M Michaely et al.
Sophie-Celine Weinert et al.
Rustrela virus (RusV) is a newly discovered member of the genus Rubivirus. RusV causes a fatal, non-suppurative meningoencephalomyelitis in a variety of mammals. Various aspects of RusV biology remain poorly understood, e.g. the excretion o...
Strain-specific pathogenicity and antibody-dependent enhancement of dengue virus infection in Ifnar1-Ifngr1 double-knockout mice [0.03%]
基于IFNAR1-IFNGR1双敲除小鼠的几种登革病毒株致病性和ADE效应的比较研究
Takayuki Hishiki,Milagros Virhuez-Mendoza,Yusuke Sakai et al.
Takayuki Hishiki et al.
This study investigated the pathogenicity of various dengue virus (DENV) strains using a newly established double-knockout (DKO) mouse model lacking both type I and type II IFN receptors (Ifnar1-Ifngr1 DKO), rendering the mice highly suscep...
Serological response to feline coronavirus in the UK domestic cat population [0.03%]
英国家猫中对猫冠状病毒的血清学反应
Hagar Sasvari,Lee Sherry,Nicola Logan et al.
Hagar Sasvari et al.
Feline coronavirus (FCoV) is a ubiquitous virus of cats, with highly variable seroprevalence, ranging between 4 and 95% worldwide in the domestic cat population. It is the causative agent of feline infectious peritonitis (FIP), a disease wh...
Establishment of a human coronavirus HKU1 infection evaluation system using apical-out airway organoids [0.03%]
用人冠状病毒HKU1建立顶端-外出呼吸道类器官感染评价系统
Masatoshi Kakizaki,Satoko Sugimoto,Miyuki Kawase et al.
Masatoshi Kakizaki et al.
Human coronavirus HKU1 (HCoV-HKU1) is difficult to study because it does not propagate in standard cell lines. Consequently, research has relied on the air-liquid interface model, which is limited by long culture periods and the absence of ...
Interactions between the 2C protein of foot-and-mouth disease virus and components of the viral replication machinery are mediated by endoplasmic reticulum-derived membranes [0.03%]
2C蛋白通过内质网衍生的膜介导与足骨口炎病毒复制机制成分之间的相互作用
Connor Hayward,Eero V Hietanen,Samuel J Dobson et al.
Connor Hayward et al.
Foot-and-mouth disease virus (FMDV) remains an ever-present threat to the economic stability of the livestock industry and global trade. Despite this, questions remain regarding the fundamental biology underpinning the replication of this v...
Donald B Smith,Peter Simmonds,Stuart G Siddell
Donald B Smith
Just over 125 years has passed since the 'filterable' agents of tobacco mosaic disease and foot-and-mouth disease were first described as infectious, replicating entities smaller than bacteria. Today, viruses are formally classified into mo...
Corrigendum: A single amino acid in coat protein of Pepper mild mottle virus determines its subcellular localization and the chlorosis symptom on leaves of pepper [0.03%]
订正:辣椒病毒外壳蛋白单个氨基酸决定其亚细胞定位及在辣椒叶片上产生黄化症状
Kelei Han,Hongying Zheng,Mengfei Ji et al.
Kelei Han et al.
Published Erratum
The Journal of general virology. 2026 May;107(5):002272. DOI:10.1099/jgv.0.002272 2026
Benchmarks for taxonomic classification of jingmenviruses and closely related viruses using newly identified genomic sequences [0.03%]
基于新鉴定的基因组序列建立黄病毒属及相关病毒分类的参考标准
Agathe M G Colmant,Rhys H Parry,Remi Charrel et al.
Agathe M G Colmant et al.
Jingmenviruses are a group of viruses related to orthoflaviviruses characterized by a segmented genome and multipartite organization that have been detected worldwide in a wide range of hosts. With the growing number of new jingmenvirus seq...