about
Influenza A virus hemagglutinin antibody escape promotes neuraminidase antigenic variation and drug resistanceHemagglutinin receptor binding avidity drives influenza A virus antigenic driftDRiPs solidify: progress in understanding endogenous MHC class I antigen processingLocally Produced IL-10 Limits Cutaneous Vaccinia Virus SpreadTerminal deoxynucleotidyl transferase establishes and broadens antiviral CD8+ T cell immunodominance hierarchiesStructure and accessibility of HA trimers on intact 2009 H1N1 pandemic influenza virus to stem region-specific neutralizing antibodiesBiogenesis of influenza a virus hemagglutinin cross-protective stem epitopesQuantitating T cell cross-reactivity for unrelated peptide antigensInfluenza virus still surprises.Expression of the 1918 influenza A virus PB1-F2 enhances the pathogenesis of viral and secondary bacterial pneumoniaHeterosubtypic immunity to influenza A virus: where do we stand?MF59 adjuvant enhances diversity and affinity of antibody-mediated immune response to pandemic influenza vaccines.Pandemic H1N1 influenza vaccine induces a recall response in humans that favors broadly cross-reactive memory B cells.Antibody pressure by a human monoclonal antibody targeting the 2009 pandemic H1N1 virus hemagglutinin drives the emergence of a virus with increased virulence in mice.Caught in the act: intravital multiphoton microscopy of host-pathogen interactions.Identification of poxvirus CD8+ T cell determinants to enable rational design and characterization of smallpox vaccinesMonitoring cotranslational protein folding in mammalian cells at codon resolutionGlycosylation focuses sequence variation in the influenza A virus H1 hemagglutinin globular domain.Compartmentalized MHC class I antigen processing enhances immunosurveillance by circumventing the law of mass action.Out with the old, in with the new? Comparing methods for measuring protein degradation.Immunoproteasomes: regulating the regulator.Back to the fold: T cell recognition of HFE, a MHC class Ib molecule that regulates iron metabolismHLA class I-restricted responses to vaccinia recognize a broad array of proteins mainly involved in virulence and viral gene regulation.mTORC1 links protein quality and quantity control by sensing chaperone availability.Defective ribosomal products are the major source of antigenic peptides endogenously generated from influenza A virus neuraminidase.Cutting edge: Sympathetic nervous system increases proinflammatory cytokines and exacerbates influenza A virus pathogenesis.Unexpected role for the immunoproteasome subunit LMP2 in antiviral humoral and innate immune responses.Que sera, sera: evolution of the swine H1N1 influenza A virus.Cysteinyl-tRNA deacylation can be uncoupled from protein synthesisNuclear translation visualized by ribosome-bound nascent chain puromycylation.Mining the plasma immunopeptidome for cancer peptides as biomarkers and beyond.XBP1, downstream of Blimp-1, expands the secretory apparatus and other organelles, and increases protein synthesis in plasma cell differentiation.Mice deficient in perforin, CD4+ T cells, or CD28-mediated signaling maintain the typical immunodominance hierarchies of CD8+ T-cell responses to influenza virusApplying the ribopuromycylation method to detect nuclear translation.Positional bias of MHC class I restricted T-cell epitopes in viral antigens is likely due to a bias in conservationInfluenza A virus nucleoprotein selectively decreases neuraminidase gene-segment packaging while enhancing viral fitness and transmissibility.Poxvirus CD8+ T-cell determinants and cross-reactivity in BALB/c mice.To DRiP or not to DRiP: generating peptide ligands for MHC class I molecules from biosynthesized proteins.Heat-aggregated noninfectious influenza virus induces a more balanced CD8(+)-T-lymphocyte immunodominance hierarchy than infectious virusViral interference with antigen presentation.
P50
Q21562135-B8BFBE62-D293-4731-88C3-F94CD3F9D141Q24649073-0DA79FEA-45E1-4795-9D08-132F65E3DD99Q27006750-926C04DB-ABBE-4B72-84F2-BB2F84892CB0Q27315106-16B59A26-52BA-4AA3-90AA-A5F64141A3ECQ28284521-B44D08EC-F21D-40B3-802B-70E90A8E55D9Q28396120-1496ACAE-1454-4A6F-ADED-6502577A9ECFQ28539672-610DA1C3-DF9E-48A0-8AC5-1C575DCBA97BQ28750512-DCD1ECD3-5D2D-444F-BE70-CC1ABFF8705BQ30331391-32B7A7CB-843B-4AB2-8F97-FA4CC6DB70E5Q30365855-8C2FB980-92EE-4B69-8005-B8E7A852A292Q30370995-E19609E4-DDD3-4F2E-9DB3-0316C6D5F7CFQ30403361-D757A5CC-00F6-4F68-8966-E4928788DE75Q30417080-F9A6A20C-035A-4060-AD22-8D1D8B5A2A47Q30417383-C044606A-E69C-4A1D-9B6B-8736AE9AEC24Q30490698-D27F951E-0E25-4501-A384-5AD79DA14732Q33210436-345014CA-E8B2-41AF-80D9-DC5622145773Q33353919-01635FC8-6669-4E9E-BEA2-18FDF8D8BC75Q33760809-3385CFEC-2601-4802-81C2-7E6588A19CEAQ33859470-FD383CD3-11DE-4C65-8E12-7674C818A234Q33866204-D08ECCE3-BD47-410F-B598-A921D22CF8CBQ33879127-E8A1A3AF-E00B-478E-857C-8E5D3AB3082BQ33943959-609AA0DB-5E29-4869-9211-BC63606A4423Q34048199-39D742E3-8507-4A4D-A661-A56E23EA8C78Q34094616-1A28ADFD-1B40-4EAF-A68E-F9F010617533Q34130632-AD8B9EF5-0D4A-4A88-8401-F5D360C31B6FQ34135104-C97CD130-41B7-4B30-99F6-01D4AA8B4F9BQ34135115-FCB90474-6027-42E1-9C20-05594CEBA6B0Q34145094-6B93409F-10C5-48D4-9DED-9AEF1A074536Q34200440-37D71D12-C936-4E5D-A7CE-6D9225B8C882Q34265585-50B10B9C-81BB-4912-A3FE-DE785CE4368DQ34279125-A304C4D4-5C45-4EE0-A3D7-44D6C884EC0FQ34345459-F8AE2BBC-8841-4410-A569-B1CE60EA14D8Q34348535-8F85D38B-CE6B-4D91-99D6-7D0679EB82D5Q34443324-C6D5F871-AF50-4A99-8058-F64365829ABBQ34565830-7EC5C563-1031-4E43-B64C-8E3ED9D753E6Q34601394-008BB890-6466-4FF0-8BEA-956197E19E9FQ34716916-BE504883-0D75-4359-A2F4-DEA73AA16620Q34801788-434B50B4-8327-4494-A75B-6B429BF29E3FQ34858946-EE4D94B0-A39A-4458-B396-AE2E9DE1F027Q34983830-7ACBE48B-F366-4C93-9974-F4C08FC3EA68
P50
name
Jonathan W Yewdell
@en
type
label
Jonathan W Yewdell
@en
prefLabel
Jonathan W Yewdell
@en