1,687 results on '"Knepper, Mark A."'
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2. Single-Nucleus RNA Sequencing Reveals Loss of Distal Convoluted Tubule 1 Renal Tubules in HIV Viral Protein R Transgenic Mice
3. Using CRISPR-Cas9/phosphoproteomics to identify substrates of calcium/calmodulin-dependent kinase 2δ
4. Navigating the Omics Frontier: Challenges, Opportunities, and the Future of Precision Nephrology
5. Multiomics Analyses Reveal Sex Differences in Mouse Renal Proximal Subsegments
6. Identification of Daboia siamensis venome using integrated multi-omics data
7. Bayesian analysis of dynamic phosphoproteomic data identifies protein kinases mediating GPCR responses
8. “ADPKD-omics”: determinants of cyclic AMP levels in renal epithelial cells
9. Guidelines on antibody use in physiology research
10. Proteomic analyses of urinary exosomes identify novel potential biomarkers for early diagnosis of sickle cell nephropathy, a sex-based study
11. Proteomics and AQP2 regulation.
12. 'Aquaporin‐omics': mechanisms of aquaporin‐2 loss in polyuric disorders.
13. Vasopressin V2 receptor, tolvaptan, and ERK1/2 phosphorylation in the renal collecting duct
14. An Efficient Algorithm for Clustering of Large-Scale Mass Spectrometry Data
15. Mining Temporal Patterns from iTRAQ Mass Spectrometry(LC-MS/MS) Data
16. Guidelines on antibody use in physiology research.
17. Collecting duct water permeability inhibition by EGF is associated with decreased cAMP, PKA activity, and AQP2 phosphorylation at Ser269.
18. REPLY TO EDEMIR : Physiological regulation and single-cell RNA sequencing
19. Transcriptomes of major renal collecting duct cell types in mouse identified by single-cell RNA-seq
20. NGS-Integrator: An efficient tool for combining multiple NGS data tracks using minimum Bayes’ factors
21. Identification and Proteomic Profiling of Exosomes in Human Urine
22. Urinary Concentrating Defect in Mice with Selective Deletion of Phloretin-Sensitive Urea Transporters in the Renal Collecting Duct
23. Systems-level identification of PKA-dependent signaling in epithelial cells
24. Direct visualization of the arterial wall water permeability barrier using CARS microscopy
25. Collecting duct water permeability inhibition by EGF is associated with decreased cAMP, PKA activity, and AQP2 phosphorylation at Ser269
26. Pendrin, Encoded by the Pendred Syndrome Gene, Resides in the Apical Region of Renal Intercalated Cells and Mediates Bicarbonate Secretion
27. Vasopressin V2 receptor, tolvaptan, and ERK1/2 phosphorylation in the renal collecting duct.
28. Aquaporin-6: An Intracellular Vesicle Water Channel Protein in Renal Epithelia
29. The Thiazide-Sensitive Na-Cl Cotransporter is an Aldosterone-Induced Protein
30. Defective Proximal Tubular Fluid Reabsorption in Transgenic Aquaporin-1 Null Mice
31. “Aquaporin‐omics”: Mechanisms of Aquaporin‐2 Loss in Polyuric Disorders
32. Vasopressin and oxytocin receptors in GtoPdb v.2023.1
33. Circadian gene expression in mouse renal proximal tubule
34. Congestive Heart Failure in Rats is Associated with Increased Expression and Targeting of Aquaporin-2 Water Channel in Collecting Duct
35. HIV viral protein R induces loss of DCT1-type renal tubules
36. Cellular and Subcellular Localization of the Vasopressin-Regulated Urea Transporter in Rat Kidney
37. Phosphorylation Changes in Response to Kinase Inhibitor H89 in PKA-Null Cells
38. Proteomics and AQP2 regulation
39. Data resource: vasopressin-regulated protein phosphorylation sites in the collecting duct
40. Early Molecular Events Mediating Loss of Aquaporin-2 during Ureteral Obstruction in Rats
41. HIV-1 Vpr suppresses expression of the thiazide-sensitive sodium chloride co-transporter in the distal convoluted tubule
42. Early Signaling Events in Renal Compensatory Hypertrophy Revealed by Multi-Omics
43. Circadian Gene Expression in Mouse Renal Proximal Tubule
44. Signaling mechanisms in renal compensatory hypertrophy revealed by multi-omics.
45. Maurice B. Burg (1931–2022), discoverer of kidney transport mechanisms
46. Forty‐five Vasopressin‐Regulated Phosphoproteins Involved in Control of Collecting Duct Water Transport
47. Quantitative apical membrane proteomics reveals vasopressin-induced actin dynamics in collecting duct cells
48. Oxytocin: One of the Factors for Regulating AQP2 Localization and Urinary AQP2 Excretion
49. Regulation of Renal Aquaporins and Sodium Transporters During Vasopressin-Escape in the Rat
50. Expression of the Epithelial NA+ Channel (ENAC) in Rat Kidney Colocalises with Aquaporin-2 (AQP-2)
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