about
sameAs
Crystal structure of a dimerized cockroach allergen Bla g 2 complexed with a monoclonal antibody.Crystal structures of mite allergens Der f 1 and Der p 1 reveal differences in surface-exposed residues that may influence antibody binding.The structure of the dust mite allergen Der p 7 reveals similarities to innate immune proteinsDer p 5 Crystal Structure Provides Insight into the Group 5 Dust Mite AllergensMechanisms of allergen-antibody interaction of cockroach allergen Bla g 2 with monoclonal antibodies that inhibit IgE antibody binding.Molecular determinants for antibody binding on group 1 house dust mite allergens.The novel structure of the cockroach allergen Bla g 1 has implications for allergenicity and exposure assessmentAlternaria alternata allergen Alt a 1: a unique β-barrel protein dimer found exclusively in fungiCharacterization of an anti-Bla g 1 scFv: Epitope mapping and cross-reactivityFel d 4, a cat lipocalin allergenIndoor Allergens and Allergic Respiratory DiseaseInvestigating cockroach allergens: aiming to improve diagnosis and treatment of cockroach allergic patientsProteomic and immunochemical characterization of glutathione transferase as a new allergen of the nematode Ascaris lumbricoidesEvery cockroach is beautiful to its motherAntigenic Determinants of Der p 1: Specificity and Cross-Reactivity Associated with IgE Antibody Recognition.Circulating Memory CD4+ T Cells Target Conserved Epitopes of Rhinovirus Capsid Proteins and Respond Rapidly to Experimental Infection in Humans.Antigenic Determinants of the Bilobal Cockroach Allergen Bla g 2.100 Years later: Celebrating the contributions of x-ray crystallography to allergy and clinical immunology.Structural Analysis of Der p 1-Antibody Complexes and Comparison with Complexes of Proteins or Peptides with Monoclonal AntibodiesAnalysis of cytokine production by peanut-reactive T cells identifies residual Th2 effectors in highly allergic children who received peanut oral immunotherapy.Molecular biology of indoor allergens.Recombinant allergens for diagnosis and therapy of allergic disease.Identification of a novel cat allergen--cystatin.Cockroach allergen Bla g 2: structure, function, and implications for allergic sensitization.Recombinant allergens for immunotherapy.IgE reactivity of tandem repeats derived from cockroach allergen, Bla g 1.Molecular cloning and expression of Cro s 1: an occupational allergen from saffron pollen (Crocus sativus).Recombinant allergens for diagnosis of cockroach allergy.A molecular perspective on TH2-promoting cytokine receptors in patients with allergic disease.Ara h 2: crystal structure and IgE binding distinguish two subpopulations of peanut allergic patients by epitope diversityCarbohydrates contribute to the interactions between cockroach allergen Bla g 2 and a monoclonal antibody.Specific IgE and IgG antibody-binding patterns to recombinant cockroach allergens.Novel allergen structures with tandem amino acid repeats derived from German and American cockroach.Bla g 6: a troponin C allergen from Blattella germanica with IgE binding calcium dependence.Validation of a phage display and computational algorithm by mapping a conformational epitope of Bla g 2.Monitoring peanut allergen in food products by measuring Ara h 1.Relevant B cell epitopes in allergic disease.Can knowledge of the molecular structure of allergens improve immunotherapy?Proteases as Th2 adjuvants.Cloning and characterization of tropomyosin from the mite Chortoglyphus arcuatus.
P50
Q27650737-B8B88177-7F38-4641-A1E5-D76CF2BE5176Q27653384-ED57574D-FEBA-49F4-B221-E7F98363965FQ27660221-83B5FD39-BF6F-4846-BA32-D99758F254C7Q27662157-138E28BE-6D3E-4DA9-97CE-82B2E4B94EDBQ27671008-4CC5BC88-DE27-47AD-8D97-438CEA0E5784Q27676503-B5F8F9C3-03B4-42FC-A570-C12CAF741C8BQ27679373-857A6DBC-BF81-4B59-96B3-A2415D48913CQ27679491-3E8086D2-26C1-43D2-B5D4-4F0F3D6FEA22Q27682472-AB15502E-A116-4443-A47B-8F5F64234435Q28293373-FDAFBD60-6140-4CC3-BBC6-72222F273904Q28386020-4CFD96FD-A65A-44D2-B2D7-172B2ADBFC0EQ28395300-69A3F14B-E4A4-4824-9EFF-8EE4891AC1E9Q28534823-D3E141E7-2927-43F4-811A-A89604F0D2CAQ28659851-FEFEDE29-9D88-4678-9C06-951F225E2483Q30275127-4B93C529-F9BC-420C-9EC9-0B6159ABFE33Q30276004-CF572C65-9706-4941-88FF-6E2B7AAC65E2Q30277948-6C36F8F9-5243-4F17-8CF4-BA2C5FA352DAQ30279063-DF730359-2E6B-4FCB-B0AA-C1C305DBD9FDQ30279264-D513E836-683A-466E-8A22-AAD1C70D5C02Q30300277-8E006741-014F-41E3-B458-9C2701CD3955Q30306047-FA5CD73F-E656-4D4B-B164-AD9B9D884B89Q30306076-223F512C-9033-4DA2-8E2D-276EF579CF7AQ30307258-EF73A19F-C6CF-439C-894A-8C4771C1C9EAQ30308608-AA903328-CFD5-4C1E-A88E-A91D83D9CF5EQ30308896-861D5244-E242-4ED3-9119-763BE3017DA2Q30309544-E25560C1-0475-4C04-A6F8-579AACADFC6EQ30360179-3F8C782D-004A-4ADB-AF6E-84AD6CFDD087Q30406036-5308C37B-610F-4E5C-B82F-DABD4CA4C286Q30406072-311B43B6-DDA3-4757-8CEB-D5CDDB2A914EQ30426134-85CD7F22-A989-484B-B2DE-D5C5F9F193ABQ30431615-7E6EEF38-61AB-4A77-A40D-3024D27F890BQ30436443-6262B7B1-04F8-4568-B406-832F537C32EEQ30472784-AB403787-C90B-4D9D-BC8D-F09EE38F86E2Q33245619-FA702F60-698D-4B84-8431-571CC3FB5404Q34085080-E8F330E7-0377-4CC5-96D6-8D830EFAA98CQ34184328-9D3715B9-3541-4F19-A1D0-2F260A9D7AE8Q34205177-1887744F-93B3-40DE-8855-16FF29D8C494Q34607887-FE03A8B1-F2AF-490E-AC74-ACC461977E55Q34662936-9317783D-C263-4F79-99E5-4B2364AFE21FQ35828863-6B1959AD-6F61-41A8-A0EF-772EF1687800
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Anna Pomés
@ast
Anna Pomés
@en
Anna Pomés
@es
Anna Pomés
@nl
Anna Pomés
@sl
type
label
Anna Pomés
@ast
Anna Pomés
@en
Anna Pomés
@es
Anna Pomés
@nl
Anna Pomés
@sl
prefLabel
Anna Pomés
@ast
Anna Pomés
@en
Anna Pomés
@es
Anna Pomés
@nl
Anna Pomés
@sl
P106
P21
P31
P496
0000-0002-8729-1829