Item Type | Name |
Concept
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Vesicular Transport Proteins
|
Concept
|
Membrane Proteins
|
Concept
|
Protein Binding
|
Concept
|
Protein Transport
|
Concept
|
DNA-Binding Proteins
|
Concept
|
Mitogen-Activated Protein Kinases
|
Concept
|
Hedgehog Proteins
|
Concept
|
rho GTP-Binding Proteins
|
Concept
|
Mitogen-Activated Protein Kinase Kinases
|
Concept
|
ral GTP-Binding Proteins
|
Concept
|
Protein Kinase Inhibitors
|
Concept
|
Mitogen-Activated Protein Kinase 1
|
Concept
|
Carrier Proteins
|
Concept
|
Protein Biosynthesis
|
Concept
|
Luminescent Proteins
|
Concept
|
Receptors, G-Protein-Coupled
|
Concept
|
Nuclear Proteins
|
Concept
|
Recombinant Proteins
|
Concept
|
rhoA GTP-Binding Protein
|
Concept
|
Mitogen-Activated Protein Kinase 3
|
Concept
|
Proto-Oncogene Proteins c-met
|
Concept
|
rab GTP-Binding Proteins
|
Concept
|
Proteins
|
Concept
|
Zebrafish Proteins
|
Concept
|
Membrane Transport Proteins
|
Concept
|
Retinol-Binding Proteins, Plasma
|
Concept
|
Cytoskeletal Proteins
|
Concept
|
Protein Structure, Tertiary
|
Concept
|
Adaptor Proteins, Signal Transducing
|
Concept
|
Proto-Oncogene Proteins c-myc
|
Concept
|
Proto-Oncogene Proteins c-raf
|
Concept
|
rac1 GTP-Binding Protein
|
Concept
|
Green Fluorescent Proteins
|
Concept
|
Eye Proteins
|
Concept
|
Recombinant Fusion Proteins
|
Concept
|
Fungal Proteins
|
Concept
|
Saccharomyces cerevisiae Proteins
|
Concept
|
Wnt Proteins
|
Concept
|
Adaptor Proteins, Vesicular Transport
|
Concept
|
cdc42 GTP-Binding Protein
|
Concept
|
Tumor Suppressor Proteins
|
Academic Article
|
Expression of beta-catenin and gamma-catenin in epithelial tumor cell lines and characterization of a unique cell line.
|
Academic Article
|
Hepatocyte growth factor and the kidney: it is not just for the liver.
|
Academic Article
|
Exocyst is involved in cystogenesis and tubulogenesis and acts by modulating synthesis and delivery of basolateral plasma membrane and secretory proteins.
|
Academic Article
|
Localization of GFP-tagged concentrative nucleoside transporters in a renal polarized epithelial cell line.
|
Academic Article
|
Exocytosis: the many masters of the exocyst.
|
Academic Article
|
The exocyst affects protein synthesis by acting on the translocation machinery of the endoplasmic reticulum.
|
Academic Article
|
The Rho family of small GTPases is involved in epithelial cystogenesis and tubulogenesis.
|
Academic Article
|
Recent advances in the cell biology of polycystic kidney disease.
|
Academic Article
|
The exocyst localizes to the primary cilium in MDCK cells.
|
Academic Article
|
ERK and MMPs sequentially regulate distinct stages of epithelial tubule development.
|
Academic Article
|
Extracellular signal-regulated kinases 1/2 control claudin-2 expression in Madin-Darby canine kidney strain I and II cells.
|
Academic Article
|
Intracellular signaling via ERK/MAPK completes the pathway for tubulogenic fibronectin in MDCK cells.
|
Academic Article
|
Branching out.
|
Academic Article
|
Analysis of membrane traffic in polarized epithelial cells.
|
Academic Article
|
The exocyst protein Sec10 is necessary for primary ciliogenesis and cystogenesis in vitro.
|
Academic Article
|
Exocyst Sec10 protects epithelial barrier integrity and enhances recovery following oxidative stress, by activation of the MAPK pathway.
|
Academic Article
|
The exocyst protein Sec10 interacts with Polycystin-2 and knockdown causes PKD-phenotypes.
|
Academic Article
|
The small GTPase Cdc42 is necessary for primary ciliogenesis in renal tubular epithelial cells.
|
Academic Article
|
Exocyst Sec10 is involved in basolateral protein translation and translocation in the endoplasmic reticulum.
|
Academic Article
|
Cdc42 deficiency causes ciliary abnormalities and cystic kidneys.
|
Academic Article
|
Expression of Drosophila forkhead transcription factors during kidney development.
|
Academic Article
|
Novel MAPK-dependent and -independent tubulogenes identified via microarray analysis of 3D-cultured Madin-Darby canine kidney cells.
|
Academic Article
|
Exocyst Sec10 protects renal tubule cells from injury by EGFR/MAPK activation and effects on endocytosis.
|
Academic Article
|
Wnt5a is necessary for normal kidney development in zebrafish and mice.
|
Academic Article
|
A possible zebrafish model of polycystic kidney disease: knockdown of wnt5a causes cysts in zebrafish kidneys.
|
Academic Article
|
Dynamin Binding Protein (Tuba) Deficiency Inhibits Ciliogenesis and Nephrogenesis in Vitro and in Vivo.
|
Academic Article
|
Cdc42 and sec10 Are Required for Normal Retinal Development in Zebrafish.
|
Academic Article
|
Urothelial Defects from Targeted Inactivation of Exocyst Sec10 in Mice Cause Ureteropelvic Junction Obstructions.
|
Academic Article
|
Arl13b and the exocyst interact synergistically in ciliogenesis.
|
Academic Article
|
Unilateral nephrectomy elongates primary cilia in the remaining kidney via reactive oxygen species.
|
Academic Article
|
Adaptor Protein CD2AP and L-type Lectin LMAN2 Regulate Exosome Cargo Protein Trafficking through the Golgi Complex.
|
Academic Article
|
A role for primary cilia in aortic valve development and disease.
|
Academic Article
|
The exocyst is required for photoreceptor ciliogenesis and retinal development.
|
Academic Article
|
Targeting Neph1 and ZO-1 protein-protein interaction in podocytes prevents podocyte injury and preserves glomerular filtration function.
|
Academic Article
|
Adaptor protein CD2AP and L-type lectin LMAN2 regulate exosome cargo protein trafficking through the Golgi complex.
|
Academic Article
|
Downregulation of exocyst Sec10 accelerates kidney tubule cell recovery through enhanced cell migration.
|
Academic Article
|
Exocyst Complex Member EXOC5 Is Required for Survival of Hair Cells and Spiral Ganglion Neurons and Maintenance of Hearing.
|
Academic Article
|
The Retinol-Binding Protein Receptor 2 (Rbpr2) Is Required for Photoreceptor Survival and Visual Function in the Zebrafish.
|
Academic Article
|
The exocyst acting through the primary cilium is necessary for renal ciliogenesis, cystogenesis, and tubulogenesis.
|
Academic Article
|
Disruption of the exocyst induces podocyte loss and dysfunction.
|
Academic Article
|
The motor protein Myo1c regulates transforming growth factor-?-signaling and fibrosis in podocytes.
|
Academic Article
|
Primary cilia defects causing mitral valve prolapse.
|
Academic Article
|
Defects in the Exocyst-Cilia Machinery Cause Bicuspid Aortic Valve Disease and Aortic Stenosis.
|
Academic Article
|
Primary cilia and the exocyst are linked to urinary extracellular vesicle production and content.
|
Academic Article
|
Conditional Loss of the Exocyst Component Exoc5 in Retinal Pigment Epithelium (RPE) Results in RPE Dysfunction, Photoreceptor Cell Degeneration, and Decreased Visual Function.
|
Academic Article
|
A Functional Binding Domain in the Rbpr2 Receptor Is Required for Vitamin A Transport, Ocular Retinoid Homeostasis, and Photoreceptor Cell Survival in Zebrafish.
|
Academic Article
|
Desert hedgehog-primary cilia cross talk shapes mitral valve tissue by organizing smooth muscle actin.
|
Concept
|
Zonula Occludens-1 Protein
|
Concept
|
Wnt-5a Protein
|
Concept
|
Protein Domains
|
Academic Article
|
Phosphorylation of slit diaphragm proteins NEPHRIN and NEPH1 upon binding of HGF promotes podocyte repair.
|