Dynamic and structural properties of sphingolipids as driving forces for the formation of membrane domains. - Wikidata - awgldk - TriplyDB

Dynamic and structural properties of sphingolipids as driving forces for the formation of membrane domains.

Dynamic and structural properties of sphingolipids as driving forces for the formation of membrane domains.

http://www.wikidata.org/entity/Q36505386

about

Shiga toxin receptor Gb3Cer/CD77: tumor-association and promising therapeutic target in pancreas and colon cancer Role of Ceramide from Glycosphingolipids and Its Metabolites in Immunological and Inflammatory Responses in Humans Mechanisms of RNA loading into exosomes Ganglioside Profiling of the Human Retina: Comparison with Other Ocular Structures, Brain and Plasma Reveals Tissue Specificities Fluorescence-topographic NSOM directly visualizes peak-valley polarities of GM1/GM3 rafts in cell membrane fluctuations.Re-configuration of sphingolipid metabolism by oncogenic transformation.Ceramide glycosylation catalyzed by glucosylceramide synthase and cancer drug resistance.Neutral glycosphingolipids in human blood: a precise mass spectrometry analysis with special reference to lipoprotein-associated Shiga toxin receptors Convenient and rapid removal of detergent from glycolipids in detergent-resistant membrane microdomains Anti-Gb3 monoclonal antibody inhibits angiogenesis and tumor development Lipid-mediated endocytosis.Many ceramides.Sphingolipid and glycosphingolipid metabolic pathways in the era of sphingolipidomics.Lipid changes within the epidermis of living skin equivalents observed across a time-course by MALDI-MS imaging and profiling.Computational modeling of sphingolipid metabolism.Sphingolipids, Lipid Rafts, and Giardial Encystation: The Show Must Go On N-glycolyl GM1 ganglioside as a receptor for simian virus 40.Association of Shiga toxin glycosphingolipid receptors with membrane microdomains of toxin-sensitive lymphoid and myeloid cells.Lipid content of brain, brain membrane lipid domains, and neurons from acid sphingomyelinase deficient mice.Sphingolipidomics: methods for the comprehensive analysis of sphingolipids.Significance of glycosphingolipid fatty acid chain length on membrane microdomain-mediated signal transduction.Fine tuning of cell functions through remodeling of glycosphingolipids by plasma membrane-associated glycohydrolases.Altered sphingolipid metabolism induced by tumor hypoxia - new vistas in glycolipid tumor markers.Glycosphingolipids in microdomain formation and their spatial organization.Remodeling of sphingolipids by plasma membrane associated enzymes.Secondary alterations of sphingolipid metabolism in lysosomal storage diseases.Lipids and membrane lateral organization Membrane microdomains in immunity: glycosphingolipid-enriched domain-mediated innate immune responses.Facing glycosphingolipid-Shiga toxin interaction: dire straits for endothelial cells of the human vasculature.Heterogeneity of gangliosides among T cell subsets.GSL-enriched membrane microdomains in innate immune responses.The glycosphingolipid hydrolases in the central nervous system.GM1 Ganglioside: Past Studies and Future Potential.Interorganellar membrane microdomains: dynamic platforms in the control of calcium signaling and apoptosis.Current and Novel Aspects on the Non-lysosomal β-Glucosylceramidase GBA2.GM1 ganglioside enhances Ret signaling in striatum.Influence of Ganglioside GM1 Concentration on Lipid Clustering and Membrane Properties and Curvature Cell surface associated glycohydrolases in normal and Gaucher disease fibroblasts.Induction of axonal differentiation by silencing plasma membrane-associated sialidase Neu3 in neuroblastoma cells.Colocalization of receptors for Shiga toxins with lipid rafts in primary human renal glomerular endothelial cells and influence of D-PDMP on synthesis and distribution of glycosphingolipid receptors.

P2860

Q21090050-83EB82B3-7C03-4F76-B4B2-1990EBE7AC11 Q28080555-7EB601A4-1C95-448F-BB85-40A30F743B3E Q28080927-CB30C7E6-7094-4645-AF96-BBAB3C88AF0E Q28555147-1CDCA829-85F1-46F7-B5C9-1066CB12F84E Q30438362-103CE8C4-4FF1-4B88-8AA3-0E3CFE63FC7A Q33649823-DEBE1224-B88C-45EF-B0D5-82C3AB710F65 Q33733991-B9BAF4A7-D693-48CC-A4A3-EF346859EDF8 Q33993186-03350B74-E133-4B1A-BE3B-C39B8398C2E4 Q34118385-94DFC1F1-2ED3-4AE1-B056-3ECD5149F6A1 Q34493644-FF6BEE3C-19CB-4760-A661-4C2A335D2418 Q35119236-B95F362E-1B7C-4A4E-9B30-7202F7A3B70B Q35149996-1A1C4BEA-1D8F-46E6-8FC2-4F8350A1930B Q35324757-B5B4F7AD-71F5-4F80-A8DA-DD51DA65ED66 Q35737930-F9C001E4-73D0-414B-AB88-9A2201014701 Q35746698-72633659-C4C2-49E3-8624-F533013C61E5 Q36283249-21EF251D-B067-4DAC-A54F-6AD591D1316C Q36315769-8CC20E2D-4711-4980-AD82-B4EC8E07E4FD Q36744101-79F6896E-2E3A-43DD-9EDC-90900699A10A Q36968637-DBE806B9-2962-486A-872C-1A7682BC9F4F Q37369553-BECA710C-E321-4A9D-AAA9-2AB2EFF731A6 Q37620459-8DD1D046-FB63-49CC-B178-9F1752849FDA Q37632845-779C3F7E-2961-43AF-854E-F98C7AEDF5F9 Q37632848-5157BA1B-DDA7-4E9C-ADF8-F739A6EA3B73 Q37639533-9CB79415-A91E-4A16-A2B7-79279307D01C Q37823410-2FC793D2-EA07-4469-8F24-55004B7A6FEB Q37826106-C50C4232-2135-4381-BDA0-BABDAD886CDC Q37855539-D13C00DE-5A76-4B89-B0F8-B8F7D6DF9E57 Q38001407-5933D4A1-2426-4D2E-800D-2478128BBACF Q38024274-649BEF22-5819-4E7D-8825-409A91164B30 Q38066785-A257DCCF-F6D8-4E9F-8E99-70FF5BDF437C Q38086070-ABE84F8D-6800-4329-B706-3D888DBEA95F Q38166684-68D99E6A-17D8-4B79-8C34-DAAB99D66D08 Q38374343-6C582F1E-2194-47A2-B1E6-97B3E128BC3B Q38588644-AC05B885-3ECF-405B-B953-A4ECAF249763 Q38646702-82653516-8EEA-443F-BCFD-E41C1B515092 Q38995699-87165A28-B772-473D-A2A0-2945408BA989 Q39223613-BDC20DFA-632D-436D-A1B5-FCC731106764 Q39360277-D3FB8EF1-4A7A-4492-9B1B-20B879541DC8 Q40193886-838A199B-9167-49BC-97AB-25304A50A5D4 Q40202145-4F28B44D-547B-49D6-91A6-A5CDE5BD0FD6

P2860

Dynamic and structural properties of sphingolipids as driving forces for the formation of membrane domains.

http://www.wikidata.org/entity/Q36505386

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年論文

@yue

2006年論文

@zh-hant

2006年論文

@zh-hk

2006年論文

@zh-mo

2006年論文

@zh-tw

2006年论文

@wuu

2006年论文

@zh

2006年论文

@zh-cn

name

Dynamic and structural propert ...... formation of membrane domains.

@ast

Dynamic and structural propert ...... formation of membrane domains.

@en

type

label

Dynamic and structural propert ...... formation of membrane domains.

@ast

Dynamic and structural propert ...... formation of membrane domains.

@en

prefLabel

Dynamic and structural propert ...... formation of membrane domains.

@ast

Dynamic and structural propert ...... formation of membrane domains.

@en

P1433

Q36505386-CD830EC6-E145-4132-BF91-62D86C430C3D

P1476

Q36505386-4F60EF8A-3B30-429F-A5EB-EB056A3A0A8E

P2093

Q36505386-708E58A4-81EA-497A-AF4C-E4B7E777841C

Q36505386-A7327F33-9E22-4523-B532-9FF974C16BB8

P304

Q36505386-C67FBA9C-4956-4B01-9B71-1D97D882CA04

P31

Q36505386-13ecab54-7a89-4d19-ad44-0894701a8442

Q36505386-AEA18C82-A74E-4E5B-BCFE-B81657B56C8C

P356

Q36505386-6D2D35B0-0786-4106-AE7B-1DC81B6721A5

P433

Q36505386-529F42D8-74F2-4743-AE4B-8FB7C1D8CFA8

P478

Q36505386-402F5669-1607-4D62-92D7-00262F864717

P50

Q36505386-117F0FD9-00F1-4434-A5BE-A77BDD30AFAE

Q36505386-26C75AD6-DFD4-4299-9D53-9D7A67BB93A2

Q36505386-C5EEF07C-DE8D-4F87-8AE4-C8B5822B8B72

P577

Q36505386-C521A004-C5FA-45E3-B28F-56C345555EE8

P698

Q36505386-86B0657A-731D-4353-9A1D-073A67655588

P356

P1433

Chemical Reviews

P1476

Dynamic and structural propert ...... formation of membrane domains

@en

P2093

Guido Tettamanti

http://www.w3.org/2001/XMLSchema#string

Vanna Chigorno

http://www.w3.org/2001/XMLSchema#string

P304

2111-2125

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1021/CR0100446

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

106

http://www.w3.org/2001/XMLSchema#string

P50

Alessandro Prinetti

P577

2006-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

16771445

http://www.w3.org/2001/XMLSchema#string