An envelope glycoprotein of the human endogenous retrovirus HERV-W is expressed in the human placenta and fuses cells expressing the type D mammalian retrovirus receptor
about
Analysis of transcribed human endogenous retrovirus W env loci clarifies the origin of multiple sclerosis-associated retrovirus env sequencesIdentification of the hASCT2-binding domain of the Env ERVWE1/syncytin-1 fusogenic glycoproteinFunctional characterization of two newly identified Human Endogenous Retrovirus coding envelope genesHuman endogenous retroviruses: transposable elements with potential?A novel human endogenous retroviral protein inhibits cell-cell fusionHuman endogenous retroviruses in health and disease: a symbiotic perspectiveSodium-dependent neutral amino acid transporter type 1 is an auxiliary receptor for baboon endogenous retrovirus.Envelope gene of the human endogenous retrovirus HERV-W encodes a functional retrovirus envelopeThe envelope glycoprotein of human endogenous retrovirus type W uses a divergent family of amino acid transporters/cell surface receptors.Comprehensive mapping of receptor-functioning domains in feline leukemia virus subgroup C receptor FLVCR1N-linked glycosylation and sequence changes in a critical negative control region of the ASCT1 and ASCT2 neutral amino acid transporters determine their retroviral receptor functionsComprehensive analysis of human endogenous retrovirus transcriptional activity in human tissues with a retrovirus-specific microarrayNp9 protein of human endogenous retrovirus K interacts with ligand of numb protein XRetroelements and the human genome: new perspectives on an old relationIdentification of an envelope protein from the FRD family of human endogenous retroviruses (HERV-FRD) conferring infectivity and functional conservation among simiansViral and developmental cell fusion mechanisms: conservation and divergenceSurvey of human genes of retroviral origin: identification and transcriptome of the genes with coding capacity for complete envelope proteinsGenomewide screening for fusogenic human endogenous retrovirus envelopes identifies syncytin 2, a gene conserved on primate evolutionDirect involvement of HERV-W Env glycoprotein in human trophoblast cell fusion and differentiationIdentification of endogenous retroviral reading frames in the human genomeNatural history of the ERVWE1 endogenous retroviral locus.Comprehensive search for intra- and inter-specific sequence polymorphisms among coding envelope genes of retroviral origin found in the human genome: genes and pseudogenes.Fusoselect: cell-cell fusion activity engineered by directed evolution of a retroviral glycoprotein.Multiplex degenerate PCR coupled with an oligo sorbent array for human endogenous retrovirus expression profilingBaton pass hypothesis: successive incorporation of unconserved endogenous retroviral genes for placentation during mammalian evolutionPaleovirology of 'syncytins', retroviral env genes exapted for a role in placentationTethering membrane fusion: common and different players in myoblasts and at the synapseThe Roles of Syncytin-Like Proteins in Ruminant PlacentationTruncated forms of the dual function human ASCT2 neutral amino acid transporter/retroviral receptor are translationally initiated at multiple alternative CUG and GUG codonsSynthesis, assembly, and processing of the Env ERVWE1/syncytin human endogenous retroviral envelope.C-Terminal truncations of syncytin-1 (ERVWE1 envelope) that increase its fusogenicitySyncytin-1 modulates placental trophoblast cell proliferation by promoting G1/S transitionCell fusion induced by ERVWE1 or measles virus causes cellular senescenceA pair of co-opted retroviral envelope syncytin genes is required for formation of the two-layered murine placental syncytiotrophoblastSyncytin-A knockout mice demonstrate the critical role in placentation of a fusogenic, endogenous retrovirus-derived, envelope geneSyncytin-A and syncytin-B, two fusogenic placenta-specific murine envelope genes of retroviral origin conserved in MuridaeRetroviral envelope gene captures and syncytin exaptation for placentation in marsupialsThe placental protein syncytin-1 impairs antiviral responses and exaggerates inflammatory responses to influenzaRetroviral envelope syncytin capture in an ancestrally diverged mammalian clade for placentation in the primitive Afrotherian tenrecsFriendly viruses: the special relationship between endogenous retroviruses and their host
P2860
Q21245052-9718D35B-8046-4512-AF34-B30B2FD7CB6EQ21245202-6E8A2A62-A570-45BE-AFE5-6B24AB979EEFQ21245208-4C74F962-1C30-4EBD-9284-585BB62CDECFQ22065700-91D45CD9-0775-4168-9EBB-08D51D24C400Q24336103-87558594-65C2-435A-B539-E76211BA467DQ24522289-A969EEC4-4E00-4E2B-AAF6-DF4B345D69BBQ24527201-EFC338E0-99D9-4A27-9F98-3BEB78F79CA1Q24529094-4A4ECBC1-E565-4BBC-A56B-C1F7C34EAE1FQ24537689-56AEE5A4-AF5C-49FF-AE5D-A2D35326FE3FQ24538814-F668629F-F1B2-4D91-AA55-93CCC9555AB9Q24550685-ED6A42F7-E9D2-4EAD-B3CB-D89B3A61ED78Q24558698-3E964035-A406-4220-8873-31217EF83191Q24562056-BC95E5FE-C221-46FD-BA93-9EA6CBBBF663Q24563781-D68F9860-A572-459C-98FF-BA9657D143B5Q24610558-E51C6C8E-D269-42B4-9DF7-11879DF9F233Q24631787-78AEDBF8-6315-40E4-A7BF-6D076DDDD1F9Q24645644-221D167E-0016-4E72-AAEF-F4DA94E45905Q24647308-7693DA4D-3A49-499B-98C6-5B83B696EBD5Q24669650-6B6F8BA7-2D15-464D-8CD5-1FA3B29A63ADQ24804743-866A68B0-3576-4505-8A66-50D7BFBEE708Q24815678-A353B31D-36B3-4876-8A99-2A1E0C5CD80BQ24816649-8C308EEE-C999-46AC-BAAE-265DC44916C2Q25256213-4EF5321D-1FC4-4057-9BE9-D114AEFB2930Q25257310-8E99E004-9E0D-4B27-8570-CBF1BE4FB89CQ26786773-6B4CFAA7-9A4E-446A-B7B6-3FB6B766CFC1Q26824449-7B80CCE1-0A63-4C1B-84C6-CBDD116291D5Q27023254-ED9CDD00-0934-47D8-B133-D58C807EE06FQ28086836-EAA94FBD-5D6F-494F-A6F1-A3AA95D727D9Q28188660-CC2765EA-09F7-4EBA-B445-A608F486522EQ28244876-A926A155-F57A-4083-88C4-EF96A1236475Q28256540-7F099D77-0B54-426B-B601-B7CD3D7CA17DQ28283709-74844B78-56E5-4BDD-A428-5EAB261E5C3AQ28301290-36F33880-1E06-4C8A-A15C-D30EBE57849DQ28507060-3014B407-B223-49A6-B528-1F10E9E555CBQ28507592-2866AA79-B086-4F6E-A3C9-462C60C1B46AQ28589175-B16D5FCE-F674-43EF-82EB-DEE6664E139FQ28650284-6EF5DDE7-E250-49AA-A213-6F3052751CBDQ28650548-981F7448-FA20-48B4-8190-A6BB0BCBB74DQ28654491-EA66C422-BC0F-430F-A6FE-20F904FC9849Q28654649-A38C4A6B-8433-4D6A-AF66-BFEE7FB32A3C
P2860
An envelope glycoprotein of the human endogenous retrovirus HERV-W is expressed in the human placenta and fuses cells expressing the type D mammalian retrovirus receptor
description
2000 nî lūn-bûn
@nan
2000 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@ast
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en-gb
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@nl
type
label
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@ast
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en-gb
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@nl
prefLabel
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@ast
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en-gb
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@nl
P2093
P2860
P50
P3181
P1433
P1476
An envelope glycoprotein of th ...... mammalian retrovirus receptor
@en
P2093
B Mandrand
S Chapel-Fernandes
P2860
P304
P3181
P356
10.1128/JVI.74.7.3321-3329.2000
P407
P577
2000-04-01T00:00:00Z