Molecular epidemiology of human enterovirus 71 strains and recent outbreaks in the Asia-Pacific region: comparative analysis of the VP1 and VP4 genes.
about
Genetic characteristics of human enterovirus 71 and coxsackievirus A16 circulating from 1999 to 2004 in Shenzhen, People's Republic of ChinaHighly attenuated Bordetella pertussis strain BPZE1 as a potential live vehicle for delivery of heterologous vaccine candidatesIncorrect identification of recent Asian strains of Coxsackievirus A16 as human enterovirus 71: improved primers for the specific detection of human enterovirus 71 by RT PCRHuman enterovirus 71 subgenotype B3 lacks coxsackievirus A16-like neurovirulence in mice infectionIdentification and validation of clinical predictors for the risk of neurological involvement in children with hand, foot, and mouth disease in SarawakThe Current Status of the Disease Caused by Enterovirus 71 Infections: Epidemiology, Pathogenesis, Molecular Epidemiology, and Vaccine DevelopmentPhylogenetic analysis of the major causative agents of hand, foot and mouth disease in Suzhou City, Jiangsu province, China, in 2012-2013.Inferring nonneutral evolution from contrasting patterns of polymorphisms and divergences in different protein coding regions of enterovirus 71 circulating in Taiwan during 1998-2003.Improved detection limit in rapid detection of human enterovirus 71 and coxsackievirus A16 by a novel reverse transcription-isothermal multiple-self-matching-initiated amplification assayEpidemiological survey of enterovirus infections occurring in Taiwan between 2000 and 2005: analysis of sentinel physician surveillance data.Study on risk factors for severe hand, foot and mouth disease in China.Sentinel surveillance for human enterovirus 71 in Sarawak, Malaysia: lessons from the first 7 yearsPhylogenetic evidence for inter-typic recombination in the emergence of human enterovirus 71 subgenotypes.Enterovirus genotypes causing hand foot and mouth disease in Shanghai, China: a molecular epidemiological analysis.An inactivated hand-foot-and-mouth disease vaccine using the enterovirus 71 (C4a) strain isolated from a Korean patient induces a strong immunogenic response in mice.Evolutionary genetics of human enterovirus 71: origin, population dynamics, natural selection, and seasonal periodicity of the VP1 geneAnalysis of cross-reactive neutralizing antibodies in human HFMD serum with an EV71 pseudovirus-based assay.The persistent circulation of enterovirus 71 in People's Republic of China: causing emerging nationwide epidemics since 2008.Identification and typing of human enterovirus: a genomic barcode approachSimultaneous detection of enterovirus 71 and coxsackievirus A16 using dual-colour upconversion luminescent nanoparticles as labels.Frequent importation of enterovirus 71 from surrounding countries into the local community of Yamagata, Japan, between 1998 and 2003.Genetic diversity and C2-like subgenogroup strains of enterovirus 71, Taiwan, 2008.Fluoxetine is a potent inhibitor of coxsackievirus replication.Enterovirus 71 infection: An experience in Korea, 2009Enterovirus 71-associated hand, foot and mouth diseases with neurologic symptoms, a university hospital experience in Korea, 2009.Development of a multiplex polymerase chain reaction assay for simultaneous identification of human enterovirus 71 and coxsackievirus A16.Simultaneous detection and identification of enteric viruses by PCR-mass assay.Identification of site-specific adaptations conferring increased neural cell tropism during human enterovirus 71 infectionPopulation dynamics and genetic diversity of C4 strains of human enterovirus 71 in Mainland China, 1998-2010.Novel multiplex oligonucleotide-conjugated bead suspension array for rapid identification of enterovirus 71 subgenogroups.Human enteroviruses are not the cause of neurological impairments in children at the Korle-Bu Teaching HospitalPhylogenetic analysis of Enterovirus 71 circulating in Beijing, China from 2007 to 2009Effect of meteorological variables on the incidence of hand, foot, and mouth disease in children: a time-series analysis in Guangzhou, China.The development and application of the two real-time RT-PCR assays to detect the pathogen of HFMDCombining multiplex reverse transcription-PCR and a diagnostic microarray to detect and differentiate enterovirus 71 and coxsackievirus A16.Antigenic and genetic diversity of human enterovirus 71 from 2009 to 2012, TaiwanSYBR green real-time PCR for the detection of all enterovirus-A71 genogroups.Epidemiological and etiological characteristics of hand, foot, and mouth disease in Henan, China, 2008-2013Mapping genetic determinants of the cell-culture growth phenotype of enterovirus 71.Sumoylation-promoted enterovirus 71 3C degradation correlates with a reduction in viral replication and cell apoptosis.
P2860
Q24535192-BF3917A9-221A-4823-A44F-8783EAA6DAA6Q24657870-AF7145F2-7629-4B14-9A7D-8AC7227D5BC9Q24800087-EF7A3A23-2383-4395-8D9E-80FAEC0B030AQ24815070-23448498-D156-4BB7-88CB-501EF4D08C57Q27487876-02FE5622-AEDE-478E-8278-18F9C0C591F9Q28066400-6DD3C2D9-C4F3-4F88-90AB-F0209660F75FQ30375266-E4838803-1F01-493B-8E00-FA0CC7A2097CQ30497073-F5BA0E0B-5B8E-48A8-99C0-58EE41E81397Q30579776-10F63060-56DE-4E64-A3E3-2F008348484EQ31133020-71D60B2B-5950-474C-BD47-8427BB2D3301Q31149613-F08E8BA2-8DEF-4CCA-A07F-693D76363270Q33249309-3A3A6A04-730D-4212-99A7-8C58A603EC11Q33255718-73D21A00-837E-498E-8AB4-DB041C8EBDE2Q33589447-6280C9D2-78A1-4BD3-8449-B53767BA0FBDQ33724967-3E223D3D-43EE-4A59-B9AC-198A2235DE07Q33725572-653592EF-68A4-4DE2-972C-9ABF443CF51DQ33806668-C2D2FCAF-1E58-4BE3-8BBA-B38D6D01100AQ34043450-1178DFAE-7210-47D8-958B-54C456DFB306Q34056244-AE0B476C-2770-42F6-A713-26F7D7E32CBBQ34231438-6D4FAA9D-CFFA-47EA-BEC0-C878111E8ACFQ34231826-3A4E4E63-12D0-4EFD-A56D-A2305D8F533BQ34287445-41BC8CA2-5207-4858-9EAA-787DF75B661BQ34323429-4C9B7D05-27AA-4E40-B50A-CFEFF49E29FAQ34362945-31CB8214-FE59-47DE-969E-6457146B935CQ34362971-413719F0-031C-4D00-9A89-84AAB741ACFFQ34368933-16BB6F32-1794-480D-9DBC-C5CAF200FACEQ34369393-3634313E-0D0B-496C-986B-66C5C4B7ABCBQ34387141-9BF3D096-EC56-4960-B85A-7FCAD8FBA322Q34415864-7316856A-E7D7-4D13-BC07-71BF3F8AA562Q34487727-2D859938-9715-44F7-A559-8B313D3D76E9Q34563993-C5DCC4A4-7BCA-4E39-A8CA-8E0911D80B63Q34589966-B58DE0F5-2CBD-421F-BD23-CDF32B2534F7Q34622453-FDD7E4A4-CF51-4917-88B7-FF57C74826A0Q34700321-96F254C3-53E5-47EC-A2C9-D4DA986F46D8Q34719599-292ECBCD-37BE-4C6D-9E26-24E29F3BE33DQ35069334-E3158000-6B5C-43ED-B16E-7F5F39C9BD80Q35126552-B59DB399-C27F-4BE4-B724-3CF12ABCF5A1Q35160633-8915CEB8-B67F-4C18-ABD7-BF2153EA2EBFQ35200148-F0F5784C-80C3-493E-96A6-F440C3280B95Q35213105-A538C315-C435-4D5B-B035-12C577CD8EEA
P2860
Molecular epidemiology of human enterovirus 71 strains and recent outbreaks in the Asia-Pacific region: comparative analysis of the VP1 and VP4 genes.
description
2003 nî lūn-bûn
@nan
2003 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
name
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@ast
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@en
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@nl
type
label
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@ast
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@en
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@nl
prefLabel
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@ast
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@en
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@nl
P2093
P2860
P921
P356
P1476
Molecular epidemiology of huma ...... ysis of the VP1 and VP4 genes.
@en
P2093
Betty A Brown
David Perera
Doosung Cheon
Haewol Cho
Hung Ming Chan
Kwai Peng Chan
Mary Jane Cardosa
Peter McMinn
P2860
P304
P356
10.3201/EID0904.020395
P577
2003-04-01T00:00:00Z