Syndecan and integrin interactomes: large complexes in small spaces.
about
Matricryptins Network with Matricellular Receptors at the Surface of Endothelial and Tumor CellsHeparan Sulfate Proteoglycans May Promote or Inhibit Cancer Progression by Interacting with Integrins and Affecting Cell MigrationThe Structure of the Tiam1 PDZ Domain/ Phospho-Syndecan1 Complex Reveals a Ligand Conformation that Modulates Protein DynamicsSyndecan-1 and Its Expanding List of ContactsRole of syndecan-2 in osteoblast biology and pathologyTracking surface glycans on live cancer cells with single-molecule sensitivity.Matrix Metalloproteinases are required for membrane motility and lumenogenesis during Drosophila heart development.The evolving field of human papillomavirus receptor research: a review of binding and entry.Loss of syndecan-1 induces a pro-inflammatory phenotype in endothelial cells with a dysregulated response to atheroprotective flow.Development and Growth of the Avian Pectoralis Major (Breast) Muscle: Function of Syndecan-4 and Glypican-1 in Adult Myoblast Proliferation and Differentiation.Syndecan-1 knockdown inhibits glioma cell proliferation and invasion by deregulating a c-src/FAK-associated signaling pathway.A microfibril assembly assay identifies different mechanisms of dominance underlying Marfan syndrome, stiff skin syndrome and acromelic dysplasiasA syndecan-4 binding peptide derived from laminin 5 uses a novel PKCε pathway to induce cross-linked actin network (CLAN) formation in human trabecular meshwork (HTM) cells.A cell adhesive peptide from tropoelastin promotes sequential cell attachment and spreading via distinct receptors.Syndecans and Enzymes Involved in Heparan Sulfate Biosynthesis and Degradation Are Differentially Expressed During Human Odontogenesis.Mixed Peptide-Conjugated Chitosan Matrices as Multi-Receptor Targeted Cell-Adhesive Scaffolds
P2860
Q26766481-1BDE5A57-449D-4EB2-BABB-4B99FDC9FAD3Q26777586-0DCC971E-91AD-4134-8758-1B5B3E066C59Q27676266-F4E5A3C9-5FCE-4017-B925-E45B15BB5B67Q28084514-7E783DEC-7448-4DAA-92AF-9D5761860BF2Q35246105-ED3A47F1-528C-40F1-8A3C-B738B9E32F5EQ35738212-19CB65B2-07C1-436E-AB01-B52BC03F7EACQ36278535-40BE0652-28D0-4D70-B10C-2E37AC347D4EQ36827213-345EFED2-3B46-4D74-B94F-BB3ABA11AE5DQ37683359-A0078C17-5A4E-4EA3-8F46-CA14E9B23FCBQ38402862-7B80CDCE-3234-4314-9C75-F15B80D65016Q41093681-FE733B9F-254F-4364-B92E-03820954D0B4Q41373533-B485606D-0FB1-4791-AB39-A80CF0A48983Q42003570-1091F0C7-E9EF-45F5-9966-B7FC35F8F624Q48093067-EBE0247E-A623-48B1-BF35-A46F206DE44FQ55447608-16AC519A-1C94-468A-90D5-F2ECCF348062Q58749421-D46EDF04-453C-4E96-BFE4-3AD28ADA94DC
P2860
Syndecan and integrin interactomes: large complexes in small spaces.
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
Syndecan and integrin interactomes: large complexes in small spaces.
@en
type
label
Syndecan and integrin interactomes: large complexes in small spaces.
@en
prefLabel
Syndecan and integrin interactomes: large complexes in small spaces.
@en
P2093
P2860
P1476
Syndecan and integrin interactomes: large complexes in small spaces.
@en
P2093
James A Roper
Mark D Bass
Rosalind C Williamson
P2860
P304
P356
10.1016/J.SBI.2012.07.003
P577
2012-07-26T00:00:00Z
2012-10-01T00:00:00Z