Structural basis for tetraspanin functions as revealed by the cryo-EM structure of uroplakin complexes at 6-A resolution. - sprookjes - yvandenbroek - TriplyDB

Structural basis for tetraspanin functions as revealed by the cryo-EM structure of uroplakin complexes at 6-A resolution.

Structural basis for tetraspanin functions as revealed by the cryo-EM structure of uroplakin complexes at 6-A resolution.

http://www.wikidata.org/entity/Q36117676

about

Identification of Tspan9 as a novel platelet tetraspanin and the collagen receptor GPVI as a component of tetraspanin microdomains Tetraspanin12 regulates ADAM10-dependent cleavage of amyloid precursor protein Glycosylation of uroplakins. Implications for bladder physiopathology Tetraspanins as therapeutic targets in hematological malignancy: a concise review Electron tomography of fusiform vesicles and their organization in urothelial cells CLRN1 is nonessential in the mouse retina but is required for cochlear hair cell development Urothelial plaque formation in post-Golgi compartments Tetraspanin-13 modulates voltage-gated CaV2.2 Ca2+ channels Expression and Subcellular Distribution of GFP-Tagged Human Tetraspanin Proteins in Saccharomyces cerevisiae SNX31: a novel sorting nexin associated with the uroplakin-degrading multivesicular bodies in terminally differentiated urothelial cells The epidermal differentiation-associated Grainyhead gene Get1/Grhl3 also regulates urothelial differentiation High-level expression, single-step immunoaffinity purification and characterization of human tetraspanin membrane protein CD81.EM-fold: De novo folding of alpha-helical proteins guided by intermediate-resolution electron microscopy density maps.Crystal Structure of a Full-Length Human Tetraspanin Reveals a Cholesterol-Binding Pocket.EM-fold: de novo atomic-detail protein structure determination from medium-resolution density maps.Production, purification and characterization of recombinant, full-length human claudin-1.Regulatory network of inflammation downstream of proteinase-activated receptors Higher-order oligomerization targets plasma membrane proteins and HIV gag to exosomes.The Ig domain protein CD9P-1 down-regulates CD81 ability to support Plasmodium yoelii infection Tspan2: a tetraspanin protein involved in oligodendrogenesis and cancer metastasis.Cell biology and physiology of the uroepithelium.TETRASPANINs in Plants.Laminin-binding integrins and their tetraspanin partners as potential antimetastatic targets.The roles of tetraspanins in HIV-1 replication.Upk3b is dispensable for development and integrity of urothelium and mesothelium.Distinct regions of the large extracellular domain of tetraspanin CD9 are involved in the control of human multinucleated giant cell formation Tetraspanins as regulators of the tumour microenvironment: implications for metastasis and therapeutic strategies.Uroplakins in urothelial biology, function, and disease Lateral organization of membrane proteins: tetraspanins spin their web.MAL facilitates the incorporation of exocytic uroplakin-delivering vesicles into the apical membrane of urothelial umbrella cells.Atomic force microscopy of Mammalian urothelial surface.The Tetraspanin-Associated Uroplakins Family (UPK2/3) Is Evolutionarily Related to PTPRQ, a Phosphotyrosine Phosphatase Receptor.Targeting of tetraspanin proteins--potential benefits and strategies Sequential and compartmentalized action of Rabs, SNAREs, and MAL in the apical delivery of fusiform vesicles in urothelial umbrella cells Revival of electron crystallography Functional implications of tetraspanin proteins in cancer biology.Endothelial adhesion receptors are recruited to adherent leukocytes by inclusion in preformed tetraspanin nanoplatforms.Transmembrane interactions are needed for KAI1/CD82-mediated suppression of cancer invasion and metastasis.Uropathogenic E. coli adhesin-induced host cell receptor conformational changes: implications in transmembrane signaling transduction.Structural and functional analysis of the native peripherin-ROM1 complex isolated from photoreceptor cells.

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Structural basis for tetraspanin functions as revealed by the cryo-EM structure of uroplakin complexes at 6-A resolution.

http://www.wikidata.org/entity/Q36117676

description

2006 nî lūn-bûn

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... n complexes at 6-A resolution.

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Structural basis for tetraspan ...... in complexes at 6-A resolution

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Guangwei Min

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Huaibin Wang

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P2860

Specific heterodimer formation is a prerequisite for uroplakins to exit from the endoplasmic reticulum

Specific tetraspanin functions

Uroplakins Ia and Ib, two major differentiation products of bladder epithelium, belong to a family of four transmembrane domain (4TM) proteins

Uroplakin IIIb, a urothelial differentiation marker, dimerizes with uroplakin Ib as an early step of urothelial plaque assembly

Structural organization and interactions of transmembrane domains in tetraspanin proteins

Improved methods for building protein models in electron density maps and the location of errors in these models

Tetraspanins in viral infections: a fundamental role in viral biology?

Complete predicted three-dimensional structure of the facilitator transmembrane protein and hepatitis C virus receptor CD81: conserved and variable structural domains in the tetraspanin superfamily.

CD81 extracellular domain 3D structure: insight into the tetraspanin superfamily structural motifs.

X-ray structure of the FimC-FimH chaperone-adhesin complex from uropathogenic Escherichia coli

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975-983

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10.1083/JCB.200602086

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6

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173

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Xiang-Peng Kong

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2006-06-01T00:00:00Z

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6999267

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cryogenic electron microscopy

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2063921

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