Regulation and roles for claudin-family tight junction proteins
about
Pancreatic cancer stem cell markers and exosomes - the incentive pushGenes Regulating Epithelial Polarity Are Critical Suppressors of Esophageal OncogenesisCentral role of Snail1 in the regulation of EMT and resistance in cancer: a target for therapeutic interventionEpithelial sodium transport and its control by aldosterone: the story of our internal environment revisitedThe Mammalian Blood-Testis Barrier: Its Biology and RegulationSystems Proteomics View of the Endogenous Human Claudin Protein FamilyProtection of Gastrointestinal Mucosa from Acute Heavy Alcohol Consumption: The Effect of Berberine and Its Correlation with TLR2, 4/IL1β-TNFα SignalingThe blood-testis barrier and its implications for male contraceptionCandida utilis and Chlorella vulgaris counteract intestinal inflammation in Atlantic salmon (Salmo salar L.)Dissociation and dispersion of claudin-3 from the tight junction could be one of the most sensitive indicators of reflux esophagitis in a rat model of the diseaseTargeting therapeutics across the blood brain barrier (BBB), prerequisite towards thrombolytic therapy for cerebrovascular disorders-an overview and advancementsBifurcation analysis of single-cell gene expression data reveals epigenetic landscapeOsteopontin activates the diabetes-associated potassium channel TALK-1 in pancreatic β-cells.Regulation of FAK Activity by Tetraspan Proteins: Potential Clinical Implications in Cancer.Emerging multifunctional roles of Claudin tight junction proteins in bone.Nuclear accumulation of symplekin promotes cellular proliferation and dedifferentiation in an ERK1/2-dependent manner.The altered tight junctions: an important gateway of bacterial translocation in cachexia patients with advanced gastric cancer.Obesity-induces Organ and Tissue Specific Tight Junction Restructuring and Barrier Deregulation by Claudin SwitchingTranscriptional control of tight junction proteins via a protein kinase C signal pathway in human telomerase reverse transcriptase-transfected human pancreatic duct epithelial cells.Arpin contributes to bacterial translocation and development of severe acute pancreatitis.Claudin-1 enhances tumor proliferation and metastasis by regulating cell anoikis in gastric cancer.Nanotopography facilitates in vivo transdermal delivery of high molecular weight therapeutics through an integrin-dependent mechanismStructural Basis of a Key Factor Regulating the Affinity between the Zonula Occludens First PDZ Domain and ClaudinsProteomic Profiling in the Brain of CLN1 Disease Model Reveals Affected Functional Modules.Large-scale phosphotyrosine proteomic profiling of rat renal collecting duct epithelium reveals predominance of proteins involved in cell polarity determination.HNF4α regulates claudin-7 protein expression during intestinal epithelial differentiation.The expression patterns and correlations of claudin-6, methy-CpG binding protein 2, DNA methyltransferase 1, histone deacetylase 1, acetyl-histone H3 and acetyl-histone H4 and their clinicopathological significance in breast invasive ductal carcinomChanges in the phosphorylation of claudins during the course of experimental colitisSecreted Frizzled-related protein 1 (sFRP1) regulates spermatid adhesion in the testis via dephosphorylation of focal adhesion kinase and the nectin-3 adhesion protein complex.Altered expression of claudin family proteins in Alzheimer's disease and vascular dementia brains.Expression of claudins, occludin, junction adhesion molecule A and zona occludens 1 in canine organsThe claudin family of proteins in human malignancy: a clinical perspectivePalmitoylated claudin7 captured in glycolipid-enriched membrane microdomains promotes metastasis via associated transmembrane and cytosolic molecules.Claudins 1, 2, 3, 4, 5 and 7 in solar keratosis and squamocellular carcinoma of the skin.The claudins.Claudin interactions in and out of the tight junctionHGF signaling regulates Claudin-3 dynamics through its C-terminal tyrosine residuesTight junctions in the testis: new perspectives.Claudin family of proteins and cancer: an overview.New aspects of the molecular constituents of tissue barriers.
P2860
Q26741215-60EACA97-C6E8-4CE3-8EBB-692384CE1CAFQ26799650-B8377D45-26CF-4B78-B5D5-F196F0D0C952Q26864839-733BD0BC-C6F1-4E8D-B1F3-96CE48019433Q28083698-F1BD8BB1-7E20-45ED-AB8D-13BA190ECC22Q28088573-3F3D16F6-9664-4444-A6FB-E94F1124F779Q28271194-A3DBDAE4-FCDC-41A2-B490-FC43D13327DEQ28384697-D57CCF54-DFE6-43C0-BAFE-661B1F754EC5Q28395237-A4212823-8784-49DB-87C4-2C540AB1CD76Q28538036-06D32359-51A5-48BE-BDC7-D961AAB66EFDQ28580941-2036AB15-7AC1-45B6-AEE4-B236D932DB34Q30393215-6F3AC8F4-7BBA-4B77-BDF2-93D2E0898028Q30878726-2BAD4FF4-96B4-4D0F-ADBC-592654EC0535Q33558636-2C4B7D8A-CD39-4441-8507-6097E1CD00ABQ33559314-C957A4EC-A939-4739-BAD6-DC3329177F07Q33765538-951BFA59-95D7-43E0-8D8D-209BB9E007F2Q33812424-F3558F5E-5D8F-41B4-ABBD-E712B14BF539Q33842314-138422D7-5FA9-49E0-8203-094BED04B8DEQ33894841-3715F1B7-2B14-4CA3-9B5A-A06A52B9F9BDQ34033442-A6D02288-F996-4EBB-AEB8-CA9843A12735Q34472592-4E5A1D10-7D1A-46A9-B9B6-46F2DA7822E6Q35176408-B589AF57-AF72-4369-80A6-E0667E8DE6A4Q35772163-C01DA098-B666-4DE7-9811-17C9CABD8FAFQ35860493-26E2A330-2B10-4E32-971A-D66BE0E7EE95Q35879035-293FEE64-979D-429A-8622-AA923838E6B7Q35895719-52D772C6-299A-4C4C-BBB9-5767CB204D82Q35931814-AF3AA0D9-7B74-4032-AFFF-3C5E25694D36Q35950987-8080A4E0-3FA5-4CDF-A913-259998225211Q36375073-500ADCDD-031B-4A13-8C1F-763EA5E6957BQ36534407-D4DF44B1-1F3F-403C-83C7-30CF02CCBB54Q37294353-44B4D043-6E14-472B-A8B9-11969FBCF6FFQ37297599-AB43FAFA-D216-4DA9-BE42-89D5DF17C207Q37302556-88CC54A0-2A6D-46B8-8044-35ED3EF8DEBAQ37327571-132ECF24-2CFC-4C40-B041-0274D116AD3DQ37349485-3FC4BAE9-8432-4CB3-9342-3231EFD7A318Q37350823-DD17FB27-3BC9-4B29-B3D7-549425E39CC0Q37420009-0BD54AFB-C934-4DB8-9F89-737DE383E0D0Q37488181-73218063-0E49-487C-A7E9-BA169BCD39B6Q37733955-61027E61-77A1-4467-B93B-7B2C048EC048Q37776656-A77639A2-272E-4BBF-918F-708203C90C93Q37791921-56953E52-E2D7-453E-9500-EC36D175AB9B
P2860
Regulation and roles for claudin-family tight junction proteins
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Regulation and roles for claudin-family tight junction proteins
@en
Regulation and roles for claudin-family tight junction proteins.
@nl
type
label
Regulation and roles for claudin-family tight junction proteins
@en
Regulation and roles for claudin-family tight junction proteins.
@nl
prefLabel
Regulation and roles for claudin-family tight junction proteins
@en
Regulation and roles for claudin-family tight junction proteins.
@nl
P2860
P356
P1433
P1476
Regulation and roles for claudin-family tight junction proteins
@en
P2093
Mary K Findley
Michael Koval
P2860
P304
P356
10.1002/IUB.175
P577
2009-04-01T00:00:00Z