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Your Position: Home > Claudin-9

Claudin-9

Brief Information

Name:Claudin-9
Target Synonym:DFNB-116,Claudin 9,DFNB116
Number of Launched Drugs:0
Number of Drugs in Clinical Trials:0
Lastest Research Phase:Preclinical

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Part of Bioactivity data

CHEK-ATP139-Cell-based assay
 Claudin-9 FACS

Fig 1. Expression analysis of human Claudin-9 on HEK293/Human Claudin-9 Stable Cell Line by FACS.
Cell surface staining was performed on HEK293/Human Claudin-9 Stable Cell Line or negative control cell using anti-human Claudin-9 antibody followed by staining with FITC anti-mouse IgG antibody.

CL9-H52P5-SPR
 Claudin-9 SPR

Human Claudin-9 Full Length Protein-VLP (Cat. No. CL9-H52P5) captured on L1 Chip can bind Anti-Claudin 9 antibody [YD4E9] with an affinity constant of 3.61 nM as determined in a SPR assay (Biacore 8K) (Routinely tested).

CL9-H5586-SPR
 Claudin-9 SPR

Anti-Claudin 9 antibody captured on Protein G-Series S sensor chip can bind Human Claudin-9, His,Twin-Strep Tag (Cat. No. CL9-H5586) with an affinity constant of 38.8 nM as determined in a SPR assay (in presence of DDM and CHS) (Biacore 8K) (Routinely tested).

Synonym Name

CLDN9

Background

Claudin-9 belongs to the claudin family. Claudins constitute integral membrane proteins responsible for solute and electrolyte permeability of the tight junction that serve as a physical barrier to prevent solutes and water from passing freely through the paracellular space between epithelial or endothelial cell sheets. Tight junctions also play a critical role in maintaining cell polarity and signal transductions. Claudin-9 creates charge specific channels in the paracellular space, plays a major role in tight junction-specific obliteration of the intercellular space, through calcium-independent cell-adhesion activity, is required to preserve sensory cells in the hearing organ because claudin-9-defective tight junctions fail to shield the basolateral side of hair cells from the K+-rich endolymph. Its ion barrier function is essential in the cochlea, but appears to be dispensable in other organs. Is one of the entry cofactors for hepatitis C virus; it enables HCV entry into target cells just as efficiently as CLDN1.

Clinical and Translational Updates

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