about
The binding sites of monoclonal antibodies to the nonreducing end ofFrancisella tularensis O-antigen accommodate mainly the terminal saccharideA small molecule glycosaminoglycan mimetic blocks Plasmodium invasion of the mosquito midgutMutagenesis of surfactant protein D informed by evolution and x-ray crystallography enhances defenses against influenza A virus in vivoTags for the stable isotopic labeling of carbohydrates and quantitative analysis by mass spectrometryGlycReSoft: a software package for automated recognition of glycans from LC/MS dataThe monoclonal antibody SH-2, raised against human mesenchymal stem cells, recognizes an epitope on endoglin (CD105).A review of methods for interpretation of glycopeptide tandem mass spectral data.Characterization of heparin oligosaccharides binding specifically to antithrombin III using mass spectrometry.Enantiospecificity of covalent adduct formation by benzo[a]pyrene anti-diol epoxide with human serum albumin.Screening for anticoagulant heparan sulfate octasaccharides and fine structure characterization using tandem mass spectrometryGlycomics analysis of mammalian heparan sulfates modified by the human extracellular sulfatase HSulf2.Highly sulfated nonreducing end-derived heparan sulfate domains bind fibroblast growth factor-2 with high affinity and are enriched in biologically active fractionsExtended N-sulfated domains reside at the nonreducing end of heparan sulfate chains.Capillary electrophoresis-mass spectrometry of carbohydrates.Oligosaccharide substrate preferences of human extracellular sulfatase Sulf2 using liquid chromatography-mass spectrometry based glycomics approaches.A typical preparation of Francisella tularensis O-antigen yields a mixture of three types of saccharides.Tandem mass spectrometry of heparan sulfate negative ions: sulfate loss patterns and chemical modification methods for improvement of product ion profilesConfident assignment of site-specific glycosylation in complex glycoproteins in a single stepMass spectrometry of oligosaccharides.MIRAGE: the minimum information required for a glycomics experimentGlyTouCan 1.0--The international glycan structure repository.The minimum information required for a glycomics experiment (MIRAGE) project: sample preparation guidelines for reliable reporting of glycomics datasets.Expression regulation and function of heparan sulfate 6-O-endosulfatases in the spermatogonial stem cell nicheThe minimum information required for a glycomics experiment (MIRAGE) project: improving the standards for reporting mass-spectrometry-based glycoanalytic dataA liquid chromatography-mass spectrometry-based approach to characterize the substrate specificity of mammalian heparanase.Effects of restoring normoglycemia in type 1 diabetes on inflammatory profile and renal extracellular matrix structure after simultaneous pancreas and kidney transplantationMass spectrometry and glycomicsWorkflow for combined proteomics and glycomics profiling from histological tissuesThe role of mobile protons in negative ion CID of oligosaccharidesMonitoring metal ion flux in reactions of metallothionein and drug-modified metallothionein by electrospray mass spectrometry.Heparan sulfate 6-O-endosulfatases (Sulfs) coordinate the Wnt signaling pathways to regulate myoblast fusion during skeletal muscle regeneration.Deciphering the Mode of Action of the Processive Polysaccharide Modifying Enzyme Dermatan Sulfate Epimerase 1 by Hydrogen-Deuterium Exchange Mass Spectrometry.Targeting Human Cancer by a Glycosaminoglycan Binding Malaria Protein.Comparative glycomics of connective tissue glycosaminoglycansThe influence of sialylation on glycan negative ion dissociation and energetics.Glycoform quantification of chondroitin/dermatan sulfate using a liquid chromatography-tandem mass spectrometry platform.Optimized extraction of glycosaminoglycans from normal and osteoarthritic cartilage for glycomics profiling.Organ-specific heparan sulfate structural phenotypes.Interlaboratory study on differential analysis of protein glycosylation by mass spectrometry: the ABRF glycoprotein research multi-institutional study 2012Nematodes join the family of chondroitin sulfate-synthesizing organisms: Identification of an active chondroitin sulfotransferase in Caenorhabditis elegans
P50
Q27679050-116CCCFB-F12E-4419-83A9-863D3B62B907Q28535338-D9363B8D-7717-4938-AD0A-01A19FBA9118Q30407670-2960A100-F2D1-4741-8B71-E4B00EC83F38Q30483429-C020D276-C7EC-4027-AAED-17B9DF2C4CE1Q30572721-A4DCC104-73D9-48CF-9AF7-F2F2A8B16201Q30807148-723B5737-D3B4-478E-B7E2-1935F5C31049Q31028719-5C2D9577-D788-436A-8A98-E19ADEDD82E6Q33318943-1489A53A-8CDB-4BCF-B13C-10564EC6D8C1Q33484076-B903E21E-C660-409E-842E-7E47E9F8BD8BQ33546538-D0ABB183-23A8-4B98-878E-D5072712EF1CQ33828849-A5DF57A0-9002-46B7-8B4C-603808685109Q33864454-B9345FD5-AC81-432D-BE90-A9F365426CC6Q33897755-C6CE9EC9-E4A1-4207-887E-E33350CC127FQ33939419-0AC049E5-D645-4E1E-B183-48DAB3DE9CF2Q34050837-52555A4D-C364-43F1-8262-60A37E3B6000Q34076424-436A04BF-FB99-467C-A2E9-8E67C582796DQ34097643-101744AD-A9F2-4B77-AF50-15D52111EA95Q34286011-8F26ED35-5297-45C1-86FF-ECC83417018AQ34299101-9E3C5DCD-0EB4-4DC1-9DC3-751737D0D0EAQ34411320-8F3D6288-C9CC-468E-886C-9973AB1C0B77Q34498371-C7A1FBC0-ADFD-4394-A9F3-93C9CE7AA2AEQ34540880-9BD4525B-DF65-4428-9B51-C62ABE2BC236Q34541352-80FEAD58-F371-4C8C-B87E-5F9CE34C2D99Q34573489-84AA35F1-2E66-4A38-98C5-74DB9F19C893Q34634250-14E1FB1B-CCF1-4A66-8113-DE439E3BFA9CQ35073484-1D460DC7-EEA9-49B1-95EA-137F41909391Q35097817-EB5D9280-2234-4CA6-A855-EF251E9E104FQ35592825-6FE6BF5E-21E7-4D81-A69F-4614424CF168Q35971542-F4156DC5-760F-4AC2-976F-FF6A667EC7B6Q36280705-F8572C24-C9DE-4246-93D4-70C1C89054C5Q36294713-0963CD9F-A23C-4780-BBDB-93DBA8038C4AQ36585345-6636BF6C-92C1-40D0-97A7-47238C9E389EQ36683860-E818A978-6557-46A6-BC32-C8F8CEE73DFBQ36958641-32A00F39-1B3F-41CD-9EEF-04AE45A8732AQ36982797-7F52F4B1-9149-40F2-B7B6-A4226292639EQ37002911-983347B6-D9E3-420C-9075-A00EBDEB073BQ37071636-E2FAA156-F9B5-4434-AFF8-4E5419EF4FF8Q37169432-71FEF5B4-56CB-4CC5-9B75-4EB5B2971265Q37214705-39E18281-6AFB-4FE7-891F-8FC04D971D6FQ37310560-8A32B19E-C248-4D52-B932-A1459DC72718
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Joseph Zaia
@ast
Joseph Zaia
@br
Joseph Zaia
@co
Joseph Zaia
@cs
Joseph Zaia
@da
Joseph Zaia
@de
Joseph Zaia
@en
Joseph Zaia
@es
Joseph Zaia
@fr
Joseph Zaia
@id
type
label
Joseph Zaia
@ast
Joseph Zaia
@br
Joseph Zaia
@co
Joseph Zaia
@cs
Joseph Zaia
@da
Joseph Zaia
@de
Joseph Zaia
@en
Joseph Zaia
@es
Joseph Zaia
@fr
Joseph Zaia
@id
prefLabel
Joseph Zaia
@ast
Joseph Zaia
@br
Joseph Zaia
@co
Joseph Zaia
@cs
Joseph Zaia
@da
Joseph Zaia
@de
Joseph Zaia
@en
Joseph Zaia
@es
Joseph Zaia
@fr
Joseph Zaia
@id
P106
P1153
7005197463
P21
P31
P496
0000-0001-9497-8701