Identification of the two rotavirus genes determining neutralization specificities.
about
Rotavirus architecture at subnanometer resolutionPhenotypic mixing during coinfection of cells with two strains of human rotavirusHuman Rotavirus VP6-Specific Antibodies Mediate Intracellular Neutralization by Binding to a Quaternary Structure in the Transcriptional PoreIdentification of group A rotavirus gene 4 types by polymerase chain reactionHumoral immune responses to VP4 and its cleavage products VP5* and VP8* in infants vaccinated with rhesus rotavirus.Antirotavirus immunoglobulin A neutralizes virus in vitro after transcytosis through epithelial cells and protects infant mice from diarrhea.Heterotypic protection and induction of a broad heterotypic neutralization response by rotavirus-like particlesPhenotypes of rotavirus reassortants depend upon the recipient genetic background.Reassortant rotaviruses containing structural proteins vp3 and vp7 from different parents induce antibodies protective against each parental serotype.Oral vaccination with the porcine rotavirus VP4 outer capsid protein expressed by Lactococcus lactis induces specific antibody productionImmune responses elicited against rotavirus middle layer protein VP6 inhibit viral replication in vitro and in vivo.Temporal and geographical distributions of human rotavirus serotypes, 1983 to 1988.Inhibition of rotavirus replication by a non-neutralizing, rotavirus VP6-specific IgA mAb.Eight-year survey of human rotavirus strains demonstrates circulation of unusual G and P types in HungaryIdentification of a T-helper cell epitope on the rotavirus VP6 protein.Single point mutations may affect the serotype reactivity of serotype G11 porcine rotavirus strains: a widening spectrum?Protection against live rotavirus challenge in mice induced by parenteral and mucosal delivery of VP6 subunit rotavirus vaccineDevelopment and validation of DNA microarray for genotyping group A rotavirus VP4 (P[4], P[6], P[8], P[9], and P[14]) and VP7 (G1 to G6, G8 to G10, and G12) genes.Identification of human and bovine rotavirus serotypes by polymerase chain reaction.Quantification of systemic and local immune responses to individual rotavirus proteins during rotavirus infection in mice.Localization of rotavirus VP4 neutralization epitopes involved in antibody-induced conformational changes of virus structureHuman viral gastroenteritis.Characterization of virus-like particles produced by the expression of rotavirus capsid proteins in insect cellsSelection of cold-adapted mutants of human rotaviruses that exhibit various degrees of growth restriction in vitro.Human rotavirus K8 strain represents a new VP4 serotype.Distribution of conserved and specific epitopes on the VP8 subunit of rotavirus VP4.VP4-specific intestinal antibody response to rotavirus in a murine model of heterotypic infection.Serotype-specific epitope(s) present on the VP8 subunit of rotavirus VP4 proteinExpression of the OSU rotavirus outer capsid protein VP4 by an adenovirus recombinant.The rhesus rotavirus outer capsid protein VP4 functions as a hemagglutinin and is antigenically conserved when expressed by a baculovirus recombinant.Extramucosal spread and development of hepatitis in immunodeficient and normal mice infected with rhesus rotavirusRotavirus genome segment 4 determines viral replication phenotype in cultured liver cells (HepG2).Immunization with baculovirus-expressed VP4 protein passively protects against simian and murine rotavirus challengeComplete nucleotide sequence of the gene encoding VP4 of a human rotavirus (strain K8) which has unique VP4 neutralization epitopesPassive immunity modulates genetic reassortment between rotaviruses in mixedly infected mice.Passive protection against rotavirus-induced diarrhea by monoclonal antibodies to surface proteins vp3 and vp7.Relative concentrations of serum neutralizing antibody to VP3 and VP7 proteins in adults infected with a human rotavirus.Functional and topographical analyses of epitopes on the hemagglutinin (VP4) of the simian rotavirus SA11.Role of VP3 in human rotavirus internalization after target cell attachment via VP7.Identification of cross-reactive and serotype 2-specific neutralization epitopes on VP3 of human rotavirus.
P2860
Q24652191-E2C5FCC6-CB67-4055-A40C-022558807D52Q27486879-CD0E57F4-B9D6-4D87-BB3A-8B3EEB6D6550Q27678128-54DEAF8E-3785-4CB3-89C1-474D81E6D960Q28776682-01E8C520-34FB-4CA7-B3E8-FD100FD42623Q31160938-07CC8DD6-C1FA-4FCA-B780-27CB12380313Q32077043-72247160-689F-40E2-9C69-221C09BFCB76Q33813867-AD78E930-854A-432D-8154-30D156D14339Q33858094-A69AD047-7775-483D-AAD5-4B726145F3A6Q33927670-61907B0B-3F30-42AB-8F11-2235F13A7C27Q33960901-723DEE69-E157-402D-8C86-51B6E2DF76AAQ34291161-A22493F6-EF10-447B-B941-8D5FAB89776CQ34456851-E70D6912-415C-4112-A519-9E689D71E519Q34791255-B46BF009-C404-4D9B-9D2C-178D60078969Q35551854-094C6AE7-AB6F-4F26-B207-771F372A88B4Q35874990-74A8DA46-2ADE-4F9A-9766-399B9D699B5EQ35897941-5F6A0782-E1E3-449C-B5CE-87ABC3E65202Q35941247-F80672FE-1EC3-4BA4-86E7-DF07ED1EF3FAQ35947518-CDC13617-11A9-4402-8DD5-52CF650BE08EQ36505331-423A3963-AF87-4E9D-81D0-139570777A32Q36535017-39B1CC78-10DC-46DC-ABC0-CAA21F490516Q36634388-3C3129C4-D67B-4007-B2AE-229B690914D7Q36634738-380205A2-B4EC-4F90-8E1B-ABE8AEC0901DQ36635294-B54AAAB8-E339-4410-953D-25D489B44597Q36637434-DBD0ECE4-20C4-40EB-B79D-642025D5C4D3Q36640488-FE3F75CF-0DCA-4EAC-A1A0-30E58459C40FQ36687427-6D475F1B-AC47-4C39-A128-6C16F1363991Q36694578-03AAAB30-28AE-476F-9CFF-ADB03A522837Q36695213-F63A79B2-0307-489F-B8DD-BC85AC79724DQ36699012-99A30210-A964-4EE1-A7D9-23F61335F22EQ36791884-6D1A2E37-7B44-47FA-8730-36DD97C572EFQ36799538-8473F521-60B2-4568-BCB2-C3D7461F3B83Q36801913-4910EFD8-2741-4ADE-97DE-6194A9633943Q36803819-E69E10D2-FB48-402E-88E8-969D28D51157Q36830849-E14356F5-F416-4C16-B860-00E0FE4B2834Q36831425-A4C49F6D-F1F5-4E11-974B-305F2FA17B39Q36863274-3C5F9618-8DAC-49BC-960E-3127FE825EA2Q36866633-B0FA1967-9F03-480E-81EE-50369B6479ACQ36869838-11BAA650-013F-4A87-9B8F-41ECDED06D0BQ36871036-A9AF4380-2439-4A1F-807A-537EFBC7DA8EQ36871958-3638457D-A2AC-4E08-88FA-575E92570D25
P2860
Identification of the two rotavirus genes determining neutralization specificities.
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
1986年论文
@zh
1986年论文
@zh-cn
name
Identification of the two rotavirus genes determining neutralization specificities.
@en
type
label
Identification of the two rotavirus genes determining neutralization specificities.
@en
prefLabel
Identification of the two rotavirus genes determining neutralization specificities.
@en
P2860
P1433
P1476
Identification of the two rotavirus genes determining neutralization specificities
@en
P2093
P2860
P304
P407
P577
1986-01-01T00:00:00Z