Carbohydrate to carbohydrate interaction in development process and cancer progression.
about
The Sweet Side of Immune Evasion: Role of Glycans in the Mechanisms of Cancer ProgressionMolecular recognition of gangliosides and their potential for cancer immunotherapiesGlycosphingolipid-Protein Interaction in Signal TransductionBio-recognition and functional lipidomics by glycosphingolipid transfer technologySialylation facilitates self-assembly of 3D multicellular prostaspheres by using cyclo-RGDfK(TPP) peptide.Carbohydrate-to-carbohydrate interactions between α2,3-linked sialic acids on α2 integrin subunits and asialo-GM1 underlie the bone metastatic behaviour of LNCAP-derivative C4-2B prostate cancer cellsRacotumomab-alum vaccine for the treatment of non-small-cell lung cancer.Single molecule study of heterotypic interactions between mucins possessing the Tn cancer antigen.Convergence and divergence of genetic and modular networks between diabetes and breast cancer.Size, Kinetics, and Free Energy of Clusters Formed by Ultraweak Carbohydrate-Carbohydrate Bonds.Integrin α5 Suppresses the Phosphorylation of Epidermal Growth Factor Receptor and Its Cellular Signaling of Cell Proliferation via N-GlycosylationDifferential expression profiles of glycosphingolipids in human breast cancer stem cells vs. cancer non-stem cellsSialic Acid-Responsive Polymeric Interface Material: From Molecular Recognition to Macroscopic Property SwitchingThe challenge and promise of glycomics.Glycophenotype of breast and prostate cancer stem cells treated with thieno[2,3-b]pyridine anticancer compound.Glycosphingolipids: synthesis and functions.Sweet and sour: the impact of differential glycosylation in cancer cells undergoing epithelial-mesenchymal transition.Cancer intelligence acquired (CIA): tumor glycosylation and sialylation codes dismantling antitumor defense.GM3 and cancer.N-Glycosylation of integrin α5 acts as a switch for EGFR-mediated complex formation of integrin α5β1 to α6β4.Interactions of mucins with the Tn or Sialyl Tn cancer antigens including MUC1 are due to GalNAc-GalNAc interactions.Changes of glycoconjugate expression profiles during early development.Equilibrium-fluctuation-analysis of single liposome binding events reveals how cholesterol and Ca2+ modulate glycosphingolipid trans-interactionsSialylation transmogrifies human breast and pancreatic cancer cells into 3D multicellular tumor spheroids using cyclic RGD-peptide induced self-assembly.A role for polyglucans in a model sea urchin embryo cellular interaction.Cerebral organoids derived from Sandhoff disease induced pluripotent stem cells exhibit impaired neurodifferentiation.Glycosylation as a Main Regulator of Growth and Death Factor Receptors Signaling.Hyper-Assembly of Self-Assembled Glycoclusters Mediated by Specific Carbohydrate-Carbohydrate Interactions.Functional role of glycosphingolipids in contact inhibition of growth in a human mammary epithelial cell line.
P2860
Q26750877-3DAB7189-2135-40D8-A435-D8313D9E0947Q26830588-35724B88-A0A1-48D5-A56D-8FCBEEAFE328Q28072827-05BC2478-15B0-49B7-9085-AAAD0D9C48E1Q30449576-4E43AD66-76FA-44BD-B176-4D7E7133570EQ33650423-535F97ED-8D78-4499-BE9C-3EFBC15137A0Q34197482-37E980E4-EA0D-438D-AF7E-E0BB907BAA3BQ34449304-10B1DFD7-72A4-41A3-9F32-A7AE50080F3CQ35216220-F9A2A131-E5BE-4EFB-BA44-27542CC118CBQ35571951-CDE788C0-1BA3-4271-9EF0-4DA6C76CBA96Q35988738-5AE802D4-0B5C-4C1D-9D16-8EBBC6D35684Q36444060-00E3AB15-CC22-47F1-BA6F-DA1E0980B6EBQ36729565-BAF2649E-F600-4724-816D-998C30280832Q37584720-6A9981CA-C2C0-43DC-984C-629F028D3B2EQ37638949-E51012A5-A53C-42B9-847B-2EB9B02FAC30Q37712277-1A56F74F-87C7-4984-848B-3DC9845E3A7DQ38155963-86C70304-FBB1-46F0-8982-E402884C779AQ38203883-257003D3-88C8-4C26-A139-722E031F5D1FQ38285397-5203BF2A-E8D4-45D9-A618-74693B5ACEC0Q38329139-29CB6799-8B56-4AD0-BC1C-D5609B63BEE5Q39377016-C63AFED2-39BA-4A2C-B682-2F0C4A1CDD19Q39696121-AE00721F-4E85-4262-AD79-56E54324CFCCQ40693610-4D89440F-2B17-4C2A-8322-0536D515E681Q41157069-F269A34F-C506-493A-A414-6C2A3506962EQ41960794-918A4854-DB7E-4BEA-A95B-B7D549FA59C1Q44083318-9F0DBEA1-0D79-4097-806A-1147509F29F3Q47846451-F6243D05-7E0B-4197-967E-2DE5BC9864D0Q49805726-BC89CBC6-598D-4124-BFD1-7E43C9CBF09EQ50954428-CDA086DF-F2A6-4CF7-A571-4D287B3465E2Q50957360-AEC89ADB-5792-43AD-B4ED-A7E9C0C3C868
P2860
Carbohydrate to carbohydrate interaction in development process and cancer progression.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Carbohydrate to carbohydrate interaction in development process and cancer progression.
@en
type
label
Carbohydrate to carbohydrate interaction in development process and cancer progression.
@en
prefLabel
Carbohydrate to carbohydrate interaction in development process and cancer progression.
@en
P2860
P1476
Carbohydrate to carbohydrate interaction in development process and cancer progression.
@en
P2093
Kazuko Handa
Sen-Itiroh Hakomori
P2860
P2888
P304
P356
10.1007/S10719-012-9380-7
P577
2012-05-18T00:00:00Z
P5875
P6179
1008689018