about
Localization of alpha 1,3-fucosyltransferase VI in Weibel-Palade bodies of human endothelial cellsMolecular cloning of a human UDP-galactose:GlcNAcbeta1,3GalNAc beta1, 3 galactosyltransferase gene encoding an O-linked core3-elongation enzymeIdentification of a missense mutation (G329A;Arg(110)--> GLN) in the human FUT7 geneFunctionally important glycosyltransferase gain and loss during catarrhine primate emergenceReconciled rat and human metabolic networks for comparative toxicogenomics and biomarker predictions.FUT4 and FUT9 genes are expressed early in human embryogenesis.A new h allele detected in Europe has a missense mutationin alpha(1,2)-fucosyltransferase motif II.Expression cloning and characterization of a novel murine alpha1, 3-fucosyltransferase, mFuc-TIX, that synthesizes the Lewis x (CD15) epitope in brain and kidney.Divergent evolution of fucosyltransferase genes from vertebrates, invertebrates, and bacteria.Evolutionary considerations in relating oligosaccharide diversity to biological function.Cloning and characterization of the alpha(1,3/4) fucosyltransferase of Helicobacter pylori.C-terminal amino acids of Helicobacter pylori alpha1,3/4 fucosyltransferases determine type I and type II transfer.Fucosylation in prokaryotes and eukaryotes.De novo assembly of the transcriptome of Acanthaster planci testes.Muc5ac gastric mucin glycosylation is shaped by FUT2 activity and functionally impacts Helicobacter pylori bindingAnalysis of glycosyltransferase expression in metastatic prostate cancer cells capable of rolling activity on microvascular endothelial (E)-selectin.Widespread balancing selection and pathogen-driven selection at blood group antigen genes.Unveiling the Impact of the Genomic Architecture on the Evolution of Vertebrate microRNAs.Normal embryonic and germ cell development in mice lacking alpha 1,3-fucosyltransferase IX (Fut9) which show disappearance of stage-specific embryonic antigen 1.Protein-Carbohydrate Interaction between Sperm and the Egg-Coating Envelope and Its Regulation by Dicalcin, a Xenopus laevis Zona Pellucida Protein-Associated Protein.Definition of molecular determinants of prostate cancer cell bone extravasation.Fut2-null mice display an altered glycosylation profile and impaired BabA-mediated Helicobacter pylori adhesion to gastric mucosa.Organization of the bovine alpha 2-fucosyltransferase gene cluster suggests that the Sec1 gene might have been shaped through a nonautonomous L1-retrotransposition event within the same locus.Alpha1,4-fucosyltransferase activity: a significant function in the primate lineage has appeared twice independently.Activity, splice variants, conserved peptide motifs, and phylogeny of two new alpha1,3-fucosyltransferase families (FUT10 and FUT11).Major carbohydrate epitopes in tissues of domestic and African wild animals of potential interest for xenotransplantation research.A single aromatic amino acid at the carboxyl terminus of Helicobacter pylori {alpha}1,3/4 fucosyltransferase determines substrate specificity.Identification of the blood group Lewis(a) determinant in the oviducal mucins of Xenopus tropicalis.Assessment of de novo copy-number variations in Italian patients with schizophrenia: Detection of putative mutations involving regulatory enhancer elements.The gain-of-function Chinese hamster ovary mutant LEC11B expresses one of two Chinese hamster FUT6 genes due to the loss of a negative regulatory factor.Homeobox gene clusters and the human paralogy map.Can an ancestral condition for milk oligosaccharides be determined? Evidence from the Tasmanian echidna (Tachyglossus aculeatus setosus)
P2860
Q22254625-924B3D7A-D0A0-4C82-AC79-E78F7D5FDF50Q28139692-4BB11A7A-257C-4AA8-BAA8-AD3A4F1C72D4Q28201648-ACC4A386-C0B2-4686-A61E-F1B6D742CE59Q28763873-F1FB4D7B-98E8-4595-933A-3A8E6FCD1C4DQ30274820-E39A6C0E-CF30-4AC9-8E69-E8FBD21961A7Q30896025-49D887FC-122C-4790-90BD-CA7068703526Q31846239-A337B23F-163B-4DE7-8AD6-FEAD8210871FQ32012189-9ED347E0-F8C7-4014-ADC5-3658F7D23D0DQ33544296-DD8BB9A1-ACD0-4AD4-A364-84B753DEFA09Q33687866-9A2AFA03-0D77-4C55-92CF-FF1E3B7BCDFCQ33889730-7C0032D3-5EBE-4AC6-A944-A9DA021913B8Q34188500-5C7A82AF-E000-4155-AF95-6EF83815D6B4Q34566205-79FB06E9-72BF-4D26-A93F-E5D0C241F175Q35508705-A0E3CABA-C7E0-4241-997B-C1DF505BEB96Q36886166-03D3081B-8EED-4AF2-AB7D-5FE862C0E2FAQ36951900-AF02F502-FE81-4B24-A2C9-234B97D90168Q37119639-13E02519-3C7E-49BF-8326-71BCE0C0C94CQ37712621-4A8497EB-A096-47C9-BD38-CE2F59A66EA6Q37732101-B27A8A6E-ACC7-43C9-8DE6-F5AA601B7C17Q38298744-387B2AB6-6527-462D-BE90-025608E62CC7Q39245333-F7516E12-86FE-4009-B9FD-6E4A71C84036Q42015583-46B13C0B-F585-471C-855B-F7D2E8FB02A4Q43770603-7CC3ABB4-45DD-473D-86F4-609A59389223Q44007526-FCF2ED5C-39AF-419D-B9F2-51822020253FQ46195191-34DC7162-A443-406E-B959-66A8BAE5E5A1Q46606726-BD92C3A9-2999-425F-B522-5092567D2D25Q46693385-BD0FB6A9-C39B-4906-A13D-FAA13351D6F3Q47379638-DC745EC4-E986-4C88-91F5-DE3AA63F80CAQ47589111-E210BC01-F544-4B7A-85AC-BFB8C5EA1ACEQ47975101-6D8D5B1B-DEA5-4978-A174-F789611014CBQ52138625-9005ABA6-12A9-4951-B2BB-F0CBE48B30D0Q58373667-16BFF907-0701-4602-AD75-1B16A18B5646
P2860
description
1997 nî lūn-bûn
@nan
1997 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Evolution of fucosyltransferase genes in vertebrates.
@ast
Evolution of fucosyltransferase genes in vertebrates.
@en
Evolution of fucosyltransferase genes in vertebrates.
@nl
type
label
Evolution of fucosyltransferase genes in vertebrates.
@ast
Evolution of fucosyltransferase genes in vertebrates.
@en
Evolution of fucosyltransferase genes in vertebrates.
@nl
prefLabel
Evolution of fucosyltransferase genes in vertebrates.
@ast
Evolution of fucosyltransferase genes in vertebrates.
@en
Evolution of fucosyltransferase genes in vertebrates.
@nl
P2093
P2860
P356
P1476
Evolution of fucosyltransferase genes in vertebrates
@en
P2093
A Blancher
A Cailleau
D Iordachescu
R Mollicone
P2860
P304
29721-29728
P356
10.1074/JBC.272.47.29721
P407
P577
1997-11-01T00:00:00Z