about
The fecal viral flora of wild rodentsDistribution and characteristics of rodent picornaviruses in ChinaStructure of human Aichi virus and implications for receptor bindingPhosphatidylinositol 4-kinases: hostages harnessed to build panviral replication platformsMolecular Epidemiological Investigation of Porcine kobuvirus and Its Coinfection Rate with PEDV and SaV in Northwest ChinaNew viruses in idiopathic human diarrhea cases, the Netherlands.Absence of genetic differences among G10P[11] rotaviruses associated with asymptomatic and symptomatic neonatal infections in Vellore, India.Detection of zoonotic pathogens and characterization of novel viruses carried by commensal Rattus norvegicus in New York City.Detection of pathogenic viruses in sewage provided early warnings of hepatitis A virus and norovirus outbreaks.Metagenomic analysis of the ferret fecal viral floraCharacterization of a canine homolog of human Aichivirus.A distinct class of internal ribosomal entry site in members of the Kobuvirus and proposed Salivirus and Paraturdivirus genera of the Picornaviridae.The 3A protein from multiple picornaviruses utilizes the golgi adaptor protein ACBD3 to recruit PI4KIIIβ.Assessment of the rabbit as a wildlife reservoir of bovine viral diarrhea virus: serological analysis and generation of trans-placentally infected offspring.Identification of a novel bovine enterovirus possessing highly divergent amino acid sequences in capsid protein.Nearly constant shedding of diverse enteric viruses by two healthy infants.Porcine kobuvirus in wild boars (Sus scrofa)Antigenic diversity of enteroviruses associated with nonpolio acute flaccid paralysis, India, 2007-2009.Complete genome sequence of the first aichi virus isolated in taiwan.Detection of novel kobu-like viruses in Japanese black cattle in Japan.Development of a reverse transcription-quantitative PCR system for detection and genotyping of aichi viruses in clinical and environmental samplesAichi virus in sewage and surface water, the NetherlandsIdentification and characterization of porcine kobuvirus variant isolated from suckling piglet in Gansu province, ChinaMolecular and phylogenetic analysis of the porcine kobuvirus VP1 region using infected pigs from Sichuan Province, China.Complete Genome Sequence of a Porcine Kobuvirus Variant Strain from Jiangxi, China.Occurrence and investigation of enteric viral infections in pigs with diarrhea in China.Detection of Aichi virus in South Korea.Aichi virus 1: environmental occurrence and behavior.Complete genome analysis of porcine kobuviruses from the feces of pigs in Japan.Molecular detection and genetic characterization of kobuviruses and astroviruses in asymptomatic local pigs in East AfricaMolecular detection of kobuviruses in livestock in Northern Ireland and the Republic of Ireland.Molecular characterization of the full kobuvirus genome in a cat.The mechanism of translation initiation on Aichivirus RNA mediated by a novel type of picornavirus IRES.Phylogenetic analysis of VP1 and RdRP genes of Brazilian aichivirus B strains involved in a diarrhea outbreak in dairy calves.Identification by next-generation sequencing of Aichivirus B in a calf with enterocolitis and neurologic signs.A New Bat-HKU2-like Coronavirus in Swine, China, 2017.Epidemiology of human and animal kobuviruses.A novel porcine kobuvirus emerged in piglets with severe diarrhoea in China.Detection and molecular characterization of porcine kobuvirus in piglets in 2009-2013 in northern Thailand.Human Rhinovirus-A1 as an Expression Vector.
P2860
Q21090494-EBE4F5DD-ECBE-467C-95A9-D85065FDD9FEQ27468645-869E4965-B6D0-4282-967B-89E8406AE402Q27727995-2525FBB4-7C28-4577-9AF4-78CFF6686A3CQ28267464-DA27295D-08BC-4197-89F8-ABBE89DF1D4BQ28829888-D4FA5CFE-21BD-4788-AB09-6EF411F8A9CBQ33816444-D6D74EF7-4D41-4870-9B15-3691DBB9EAB5Q34059334-377FBC1F-EF77-407C-BB4C-E0A33E5064E1Q34384822-EE8455EE-D74A-4C32-BC84-03E1EE894891Q34594424-DA2C84DB-401C-44FB-8107-92DE1FEC3D15Q34971554-E3458C4D-71D4-4195-877B-2B6CD0C69BB5Q35362842-7870A9DD-B508-4C7D-9488-6BA7D2271BECQ35689574-65C99CDB-8306-47F5-8115-5B2D6E5CA26EQ35826912-35FA77B5-3791-4A91-B887-A1F7219915DEQ36098252-0253F0CE-4FBC-4956-80B8-406F020B30EBQ36251678-0CE69569-46C8-4797-A5B7-F7303BF5CB70Q36363067-EA428184-FE48-4BA2-9FA0-B9D627E2FA5BQ36522109-1A80D1C5-46A4-47F6-BB30-E7AE957C24A4Q36574377-8502338A-8A69-498F-A597-F4B67BB10B2EQ36601169-C3846552-3A71-4CCE-A12A-4F306779D980Q36669907-EC405B17-AE0E-40AE-9BB8-C29CF7A57862Q36970704-FDC26923-A6D9-43E2-BF87-9B817D6E517BQ37085167-40058FDC-38EF-4923-A6F3-D11A57C2600EQ37271704-9378254A-37B0-495D-947C-DE7D3F57A398Q37357589-F9CFB8E3-58FF-40FC-9239-57A66180E15AQ37621791-BFEBFA2A-92AF-4A57-BEDC-F56B85F90C06Q38089630-2F0A65B0-7ED2-49A8-9891-808F1734766DQ38392943-300013BA-CEA7-4E5A-A549-148B8F388ACFQ38495221-492034DC-4B1D-4953-B4F6-587C40F7FA8DQ38796627-71DEAFA5-E4A4-4DC8-AABF-A3197CE9C939Q38863840-5EB120EE-8A73-4539-8A33-A327720A4E91Q38994424-A43DE543-A96C-4970-957E-4F9BABEB141FQ39160191-0F9DB126-90C3-492D-8719-863B92B3E200Q39591865-9854EF60-6FE3-427A-A748-22E7C5D00F19Q40066959-55465A9A-C377-49FB-84F0-A4FCCBD64AB1Q40069858-13EFEFDF-303F-4958-8E94-45544442BC0DQ40143972-7F7E4715-8E89-4127-A425-DEDBB0845F06Q40169774-38C85338-AC22-4B8A-B9CA-948ECD21A52BQ40204336-BFE05087-8052-4B16-A669-CA70340CCAEEQ40217795-2AD3F3A2-511A-4F46-99B9-9A2CC5530E80Q40259597-A77B4702-5621-46E7-BC58-ACC2FF83A286
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Kobuviruses - a comprehensive review.
@en
Kobuviruses - a comprehensive review.
@nl
type
label
Kobuviruses - a comprehensive review.
@en
Kobuviruses - a comprehensive review.
@nl
prefLabel
Kobuviruses - a comprehensive review.
@en
Kobuviruses - a comprehensive review.
@nl
P2860
P356
P1476
Kobuviruses - a comprehensive review.
@en
P2093
Péter Pankovics
P2860
P356
10.1002/RMV.677
P577
2011-01-01T00:00:00Z