| scholarly article | Q13442814 |
| P50 | author | Sheldon Weinbaum | Q15995577 |
| P2093 | author name string | Wen Liu | |
| Lisa M Satlin | |||
| Paul Kim | |||
| Craig Woda | |||
| Shiyun Xu | |||
| P433 | issue | 5 | |
| P304 | page(s) | F998-F1012 | |
| P577 | publication date | 2003-07-01 | |
| P1433 | published in | American Journal of Physiology - Renal Physiology | Q2610177 |
| P1476 | title | Effect of flow and stretch on the [Ca2+]i response of principal and intercalated cells in cortical collecting duct | |
| P478 | volume | 285 |
| Q51975205 | A mathematical model of rat distal convoluted tubule. II. Potassium secretion along the connecting segment. |
| Q42125994 | ATP release from non-excitable cells. |
| Q42255240 | ATP releasing connexin 30 hemichannels mediate flow-induced calcium signaling in the collecting duct. |
| Q37109279 | An Integrative Review of Mechanotransduction in Endothelial, Epithelial (Renal) and Dendritic Cells (Osteocytes). |
| Q36817088 | An unexpected journey: conceptual evolution of mechanoregulated potassium transport in the distal nephron |
| Q37216909 | Attenuated, flow-induced ATP release contributes to absence of flow-sensitive, purinergic Cai2+ signaling in human ADPKD cyst epithelial cells |
| Q26865107 | Autophagy and regulation of cilia function and assembly |
| Q35099094 | BK channels and a new form of hypertension |
| Q36507033 | BK channels in the kidney: role in K(+) secretion and localization of molecular components |
| Q33891463 | Biomechanical regulation of cyclooxygenase-2 in the renal collecting duct |
| Q30480670 | Biomechanics: cell research and applications for the next decade |
| Q39388889 | Biophysics and Biofluiddynamics of Primary Cilia: evidence for and against the flow-sensing function. |
| Q36699843 | Carbon monoxide stimulates Ca2+ -dependent big-conductance K channels in the cortical collecting duct |
| Q42378111 | Cdc42 activation couples fluid shear stress to apical endocytosis in proximal tubule cells. |
| Q38091082 | Cell mechanosensitivity: mechanical properties and interaction with gravitational field |
| Q37397279 | Cellular stretch increases superoxide production in the thick ascending limb |
| Q36497518 | Centrosome positioning in vertebrate development |
| Q38256488 | Chemical and Physical Sensors in the Regulation of Renal Function |
| Q28579739 | Cholangiocyte cilia detect changes in luminal fluid flow and transmit them into intracellular Ca2+ and cAMP signaling |
| Q34979672 | Cilia movement regulates expression of the Raf-1 kinase inhibitor protein |
| Q28281970 | Ciliary calcium signaling is modulated by kidney injury molecule-1 (Kim1) |
| Q27007175 | Collecting duct intercalated cell function and regulation |
| Q38264623 | Computational models of the primary cilium and endothelial mechanotransmission. |
| Q37297648 | Connexin 30 deficiency impairs renal tubular ATP release and pressure natriuresis |
| Q39958147 | Connexin 30.3 is expressed in the kidney but not regulated by dietary salt or high blood pressure |
| Q38955314 | Cyclooxygenase-2, prostaglandin E2, and prostanoid receptor EP2 in fluid flow shear stress-mediated injury in the solitary kidney |
| Q35086473 | Deciphering physiological role of the mechanosensitive TRPV4 channel in the distal nephron |
| Q34629804 | Distal convoluted tubule |
| Q52975643 | Distal convoluted tubule. |
| Q37485817 | Distal potassium handling based on flow modulation of maxi-K channel activity |
| Q43181146 | Does retinitis pigmentosa relate with polycystic kidney disease? |
| Q26825260 | ENaC regulation by proteases and shear stress |
| Q34121928 | Effects of biomechanical forces on signaling in the cortical collecting duct (CCD). |
| Q37123270 | Epoxyeicosatrienoic acid activates BK channels in the cortical collecting duct |
| Q37133680 | Exploring mechanisms involved in renal tubular sensing of mechanical stretch following ureteric obstruction |
| Q33859455 | Expression and Analysis of Flow-regulated Ion Channels in Xenopus Oocytes |
| Q53585990 | Flow increases superoxide production by NADPH oxidase via activation of Na-K-2Cl cotransport and mechanical stress in thick ascending limbs. |
| Q39990068 | Flow modulates centriole movements in tubular epithelial cells |
| Q34719208 | Flow regulation of collecting duct endothelin-1 production |
| Q36309386 | Flow-induced prostaglandin E2 release regulates Na and K transport in the collecting duct |
| Q54400236 | Fluid Shear Stress Induces Renal Epithelial Gene Expression through Polycystin-2-Dependent Trafficking of Extracellular Regulated Kinase |
| Q39995163 | Fluid flow induces mechanosensitive ATP release, calcium signalling and Cl- transport in biliary epithelial cells through a PKCzeta-dependent pathway |
| Q35906117 | Force-response considerations in ciliary mechanosensation |
| Q35841959 | Function of transient receptor potential cation channel subfamily V member 4 (TRPV4) as a mechanical transducer in flow-sensitive segments of renal collecting duct system |
| Q40281984 | Glucose-evoked alterations in connexin43-mediated cell-to-cell communication in human collecting duct: a possible role in diabetic nephropathy. |
| Q36175595 | Gαq/11-mediated intracellular calcium responses to retrograde flow in endothelial cells |
| Q36651169 | Human ADPKD primary cyst epithelial cells with a novel, single codon deletion in the PKD1 gene exhibit defective ciliary polycystin localization and loss of flow-induced Ca2+ signaling. |
| Q36896661 | Impact of Angiotensin Type 1A Receptors in Principal Cells of the Collecting Duct on Blood Pressure and Hypertension |
| Q35540081 | Inhibition of MAPK stimulates the Ca2+ -dependent big-conductance K channels in cortical collecting duct |
| Q33761404 | Inhibition of phosphatidylinositol 3-kinase stimulates activity of the small-conductance K channel in the CCD. |
| Q37764345 | Integration of in silico and in vitro platforms for pharmacokinetic-pharmacodynamic modeling |
| Q27321146 | Interplay between cytoskeletal stresses and cell adaptation under chronic flow |
| Q33921405 | Intratubular hydrodynamic forces influence tubulointerstitial fibrosis in the kidney |
| Q29614619 | Inversin, the gene product mutated in nephronophthisis type II, functions as a molecular switch between Wnt signaling pathways |
| Q50997752 | Lengthening primary cilia enhances cellular mechanosensitivity. |
| Q28575013 | Localization of connexin 30 in the luminal membrane of cells in the distal nephron |
| Q35652092 | Luminal flow modulates H+-ATPase activity in the cortical collecting duct (CCD). |
| Q36775665 | Maintaining K+ balance on the low-Na+, high-K+ diet |
| Q83368248 | Maxi-K channels contribute to urinary potassium excretion in the ROMK-deficient mouse model of Type II Bartter's syndrome and in adaptation to a high-K diet |
| Q36066690 | Mechanical properties of a primary cilium as measured by resonant oscillation |
| Q37417281 | Mechanoregulation of BK channel activity in the mammalian cortical collecting duct: role of protein kinases A and C. |
| Q42259459 | Mechanosensitive ATP release maintains proper mucus hydration of airways |
| Q36527934 | Mechanosensitive Cl- secretion in biliary epithelium mediated through TMEM16A. |
| Q30832338 | Mechanosensory function of microvilli of the kidney proximal tubule |
| Q34426302 | Mechanotransduction in the renal tubule |
| Q40018540 | Microfluidic devices for studies of primary cilium mediated cellular response to dynamic flow conditions |
| Q46740090 | Mineralocorticoids decrease the activity of the apical small-conductance K channel in the cortical collecting duct |
| Q42641592 | Mutations in the pore region modify epithelial sodium channel gating by shear stress |
| Q36581884 | Novel insights into TRPV4 function in the kidney |
| Q42056882 | Opening lines of communication in the distal nephron |
| Q36967551 | Orientation-specific responses to sustained uniaxial stretching in focal adhesion growth and turnover |
| Q46611851 | Osmotic polyuria: an overlooked mechanism in diabetic nephropathy |
| Q27000075 | Pathophysiology of childhood polycystic kidney diseases: new insights into disease-specific therapy |
| Q33949172 | Polycystic liver diseases. |
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| Q28258516 | Potential pharmacological interventions in polycystic kidney disease |
| Q39242476 | Primary Cilia in Cystic Kidney Disease |
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| Q33574547 | Primary cilia respond to fluid shear stress and mediate flow-induced calcium deposition in osteoblasts |
| Q36050915 | Protein kinase G inhibits flow-induced Ca2+ entry into collecting duct cells |
| Q33995597 | Purinergic activation of Ca2+-permeable TRPV4 channels is essential for mechano-sensitivity in the aldosterone-sensitive distal nephron |
| Q36540144 | Regulation of cation transport in the distal nephron by mechanical forces |
| Q35436920 | Regulation of glomerulotubular balance. III. Implication of cytosolic calcium in flow-dependent proximal tubule transport |
| Q39167400 | Regulation of glomerulotubular balance: flow-activated proximal tubule function |
| Q89164272 | Regulation of renal Na transporters in response to dietary K |
| Q36450027 | Regulation of transport in the connecting tubule and cortical collecting duct |
| Q37476564 | Renal and cardiovascular sensory receptors and blood pressure regulation |
| Q37950892 | Renal outer medullary potassium channel knockout models reveal thick ascending limb function and dysfunction |
| Q26865487 | Renal urinary shear stress: a novel actor in nephropathies |
| Q42483833 | Respiration rate in human primary renal proximal and early distal tubular cells in vitro: considerations for biohybrid renal devices |
| Q35760379 | Role of NKCC in BK channel-mediated net K⁺ secretion in the CCD |
| Q54980843 | Role of WNK4 and kidney-specific WNK1 in mediating the effect of high dietary K+ intake on ROMK channel in the distal convoluted tubule. |
| Q36703547 | Role of renal TRP channels in physiology and pathology |
| Q33606240 | Sensing a sensor: identifying the mechanosensory function of primary cilia |
| Q90010767 | Sensing of tubular flow and renal electrolyte transport |
| Q36086393 | Severe hyperkalemia following adrenalectomy for aldosteronoma: prediction, pathogenesis and approach to clinical management- a case series |
| Q34305498 | Shear stress increases nitric oxide production in thick ascending limbs |
| Q33767620 | Shear stress-dependent regulation of apical endocytosis in renal proximal tubule cells mediated by primary cilia. |
| Q34149593 | Shear stress-induced volume decrease in C11-MDCK cells by BK-alpha/beta4. |
| Q36693828 | Shear-induced volume decrease in MDCK cells |
| Q33622641 | Spatially resolved shear distribution in microfluidic chip for studying force transduction mechanisms in cells |
| Q36719236 | TRPV4 dysfunction promotes renal cystogenesis in autosomal recessive polycystic kidney disease |
| Q33606399 | TRPV4 mediates flow-induced increases in intracellular Ca in medullary thick ascending limbs. |
| Q38073602 | The ciliary flow sensor and polycystic kidney disease |
| Q37928761 | The mechanics of the primary cilium: an intricate structure with complex function |
| Q49207704 | The mechanosensitive BKα/β1 channel localizes to cilia of principal cells in rabbit cortical collecting duct (CCD). |
| Q36134906 | The mechanosensitive nature of TRPV channels |
| Q38172403 | The physical basis of renal fibrosis: effects of altered hydrodynamic forces on kidney homeostasis |
| Q39433458 | The use of controlled surface topography and flow-induced shear stress to influence renal epithelial cell function |
| Q38173179 | Tissue-engineered kidney disease models |
| Q31112163 | Transepithelial pressure pulses induce nucleotide release in polarized MDCK cells |
| Q38130285 | Uriniferous tubule: structural and functional organization |
| Q39653940 | Use of optical tweezers to probe epithelial mechanosensation |
| Q35159554 | WNK4 kinase inhibits Maxi K channel activity by a kinase-dependent mechanism. |
| Q37810461 | mTOR and rapamycin in the kidney: signaling and therapeutic implications beyond immunosuppression |
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