Relevant bibliographies by topics / Ion channels and transporters for potassium; sodium and water

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Ion channels and transporters for potassium; sodium and water'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Ion channels and transporters for potassium; sodium and water"

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Zając, Mirosław, Andrzej Lewenstam, Magdalena Stobiecka, and Krzysztof Dołowy. "New ISE-Based Apparatus for Na+, K+, Cl−, pH and Transepithelial Potential Difference Real-Time Simultaneous Measurements of Ion Transport across Epithelial Cells Monolayer–Advantages and Pitfalls." Sensors 19, no. 8 (2019): 1881. http://dx.doi.org/10.3390/s19081881.

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Cystic Fibrosis (CF) is the most common fatal human genetic disease, which is caused by a defect in an anion channel protein (CFTR) that affects ion and water transport across the epithelium. We devised an apparatus to enable the measurement of concentration changes of sodium, potassium, chloride, pH, and transepithelial potential difference by means of ion-selective electrodes that were placed on both sides of a 16HBE14σ human bronchial epithelial cell line that was grown on a porous support. Using flat miniaturized ISE electrodes allows for reducing the medium volume adjacent to cells to app
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Bjerregaard, Henning F. "Side-specific Toxic Effects on the Membranes of Cultured Renal Epithelial Cells (A6)." Alternatives to Laboratory Animals 23, no. 4 (1995): 485–90. http://dx.doi.org/10.1177/026119299502300411.

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- A cultured epithelial cell line from toad kidney (A6) was used to investigate side-specific toxicity related to the apical (outer) and basolateral (inner) membranes of epithdia. Well-known inhibitors and stimulators of ion transport were used to show that the ion transport proteins are asymmetrically distributed: the apical membrane contains sodium and chloride channels and the basolateral membrane contains Na+/K+ pumps, Na+/Cl- co-transporters, potassium channels and receptors for antidiuretic hormone The data demonstrate that the cellular toxicity of chemicals decreases when they are added
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Collaco, Anne M., Robert L. Jakab, Nadia E. Hoekstra, Kisha A. Mitchell, Amos Brooks, and Nadia A. Ameen. "Regulated traffic of anion transporters in mammalian Brunner's glands: a role for water and fluid transport." American Journal of Physiology-Gastrointestinal and Liver Physiology 305, no. 3 (2013): G258—G275. http://dx.doi.org/10.1152/ajpgi.00485.2012.

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The Brunner's glands of the proximal duodenum exert barrier functions through secretion of glycoproteins and antimicrobial peptides. However, ion transporter localization, function, and regulation in the glands are less clear. Mapping the subcellular distribution of transporters is an important step toward elucidating trafficking mechanisms of fluid transport in the gland. The present study examined 1) changes in the distribution of intestinal anion transporters and the aquaporin 5 (AQP5) water channel in rat Brunner's glands following second messenger activation and 2) anion transporter distr
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Yuan, Dumin, Zhiyuan Ma, Biguang Tuo, Taolang Li, and Xuemei Liu. "Physiological Significance of Ion Transporters and Channels in the Stomach and Pathophysiological Relevance in Gastric Cancer." Evidence-Based Complementary and Alternative Medicine 2020 (February 13, 2020): 1–10. http://dx.doi.org/10.1155/2020/2869138.

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Gastric cancer (GC) is a highly invasive and fatal malignant disease that accounts for 5.7% of new global cancer cases and is the third leading cause of cancer-related death. Acid/base homeostasis is critical for organisms because protein and enzyme function, cellular structure, and plasma membrane permeability change with pH. Various ion transporters are expressed in normal gastric mucosal epithelial cells and regulate gastric acid secretion, ion transport, and fluid absorption, thereby stabilizing the differentiation and homeostasis of gastric mucosal epithelial cells. Ion transporter dysfun
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Kang, Tong Mook, Vladislav S. Markin, and Donald W. Hilgemann. "Ion Fluxes in Giant Excised Cardiac Membrane Patches Detected and Quantified with Ion-selective Microelectrodes." Journal of General Physiology 121, no. 4 (2003): 325–48. http://dx.doi.org/10.1085/jgp.200208777.

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We have used ion-selective electrodes (ISEs) to quantify ion fluxes across giant membrane patches by measuring and simulating ion gradients on both membrane sides. Experimental conditions are selected with low concentrations of the ions detected on the membrane side being monitored. For detection from the cytoplasmic (bath) side, the patch pipette is oscillated laterally in front of an ISE. For detection on the extracellular (pipette) side, ISEs are fabricated from flexible quartz capillary tubing (tip diameters, 2–3 microns), and an ISE is positioned carefully within the patch pipette with th
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Nakamura, Kazuyoshi, Hikaru Hayashi, and Manabu Kubokawa. "Proinflammatory Cytokines and Potassium Channels in the Kidney." Mediators of Inflammation 2015 (2015): 1–8. http://dx.doi.org/10.1155/2015/362768.

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Proinflammatory cytokines affect several cell functions via receptor-mediated processes. In the kidney, functions of transporters and ion channels along the nephron are also affected by some cytokines. Among these, alteration of activity of potassium ion (K+) channels induces changes in transepithelial transport of solutes and water in the kidney, since K+channels in tubule cells are indispensable for formation of membrane potential which serves as a driving force for the transepithelial transport. Altered K+channel activity may be involved in renal cell dysfunction during inflammation. Althou
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Sopjani, Mentor, Lulzim Millaku, Dashnor Nebija, Merita Emini, Arleta Rifati-Nixha, and Miribane Dërmaku-Sopjani. "The Glycogen Synthase Kinase-3 in the Regulation of Ion Channels and Cellular Carriers." Current Medicinal Chemistry 26, no. 37 (2019): 6817–29. http://dx.doi.org/10.2174/0929867325666181009122452.

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Glycogen synthase kinase-3 (GSK-3) is a highly evolutionarily conserved and ubiquitously expressed serine/threonine kinase, an enzyme protein profoundly specific for glycogen synthase (GS). GSK-3 is involved in various cellular functions and physiological processes, including cell proliferation, differentiation, motility, and survival as well as glycogen metabolism, protein synthesis, and apoptosis. There are two isoforms of human GSK-3 (named GSK-3α and GSK-3β) encoded by two distinct genes. Recently, GSK-3β has been reported to function as a powerful regulator of various transport processes
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Shah, Binita, Dan Sindhikara, Ken Borrelli, and Abba E. Leffler. "Water Thermodynamics of Peptide Toxin Binding Sites on Ion Channels." Toxins 12, no. 10 (2020): 652. http://dx.doi.org/10.3390/toxins12100652.

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Peptide toxins isolated from venomous creatures, long prized as research tools due to their innate potency for ion channels, are emerging as drugs as well. However, it remains challenging to understand why peptide toxins bind with high potency to ion channels, to identify residues that are key for activity, and to improve their affinities via mutagenesis. We use WaterMap, a molecular dynamics simulation-based method, to gain computational insight into these three questions by calculating the locations and thermodynamic properties of water molecules in the peptide toxin binding sites of five io
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Praetorius, Jeppe, and Søren Nielsen. "Distribution of sodium transporters and aquaporin-1 in the human choroid plexus." American Journal of Physiology-Cell Physiology 291, no. 1 (2006): C59—C67. http://dx.doi.org/10.1152/ajpcell.00433.2005.

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The choroid plexus epithelium secretes electrolytes and fluid in the brain ventricular lumen at high rates. Several channels and ion carriers have been identified as likely mediators of this transport in rodent choroid plexus. This study aimed to map several of these proteins to the human choroid plexus. Immunoperoxidase-histochemistry was employed to determine the cellular and subcellular localization of the proteins. The water channel, aquaporin (AQP) 1, was predominantly situated in the apical plasma membrane domain, although distinct basolateral and endothelial immunoreactivity was also ob
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Askenasy, N., and G. Navon. "Volume-related activities of sodium ion transporters: multinuclear NMR studies of isolated rat hearts." American Journal of Physiology-Heart and Circulatory Physiology 271, no. 1 (1996): H94—H102. http://dx.doi.org/10.1152/ajpheart.1996.271.1.h94.

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The present study aims to determine the volume-related activities of sodium ion transporters in the rat heart. Intracellular volumes were measured in isolated hearts by 1H of water and 59Co nuclear magnetic resonance (NMR) of the extracellular marker cobalticyanide. Inhibition of the Na-K-adenosinetriphosphatase pumps with 50 microM ouabain did not affect the extent of cellular swelling during 30 min of ischemia: cells swelled by 0.37 ml/g dry wt compared with the controls (0.38 ml/g dry wt). After perfusion with 400 microM ouabain or 200 microM iodoacetate, the cells shrank during ischemia (f
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Dissertations / Theses on the topic "Ion channels and transporters for potassium; sodium and water"

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Guerrero, Galan Maria del Carmen. "Impact of the ectomycorrhizal symbiosis for plant adaptation to nutritional and salt stress : characterization and role of potassium channels in the model fungus Hebeloma cylindrosporum." Thesis, Montpellier, 2017. http://www.theses.fr/2017MONTT142.

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La symbiose ectomycorhizienne, répandue dans les forêts tempérées et boréales, se base sur des échanges nutritionnels entre la plante hôte et des champignons du sol. Ce mutualisme améliore la nutrition minérale et en eau de plantes ligneuses à travers des mécanismes encore méconnus. Ce manuscrit de thèse présente l’ensemble des systèmes de transport membranaire du champignon ectomycorhizien Hebeloma cylindrosporum identifié à partir du génome séquencé, avec un accent sur les gènes dont l’expression est induite en symbiose avec son hôte naturel, le pin maritime (Pinus pinaster). Ces données aid
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Book chapters on the topic "Ion channels and transporters for potassium; sodium and water"

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Koch, Christof. "Ionic Channels." In Biophysics of Computation. Oxford University Press, 1998. http://dx.doi.org/10.1093/oso/9780195104912.003.0014.

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In the previous chapters, we studied the spread of the membrane potential in passive or active neuronal structures and the interaction among two or more synaptic inputs. We have yet to give a full account of ionic channels, the elementary units underlying all of this dizzying variety of electrical signaling both within and between neurons. Ionic channels are individual proteins anchored within the bilipid membrane of neurons, glia, or other cells, and can be thought of as water-filled macromolecular pores that are permeable to particular ions. They can be exquisitely voltage sensitive, as the fast sodium channel responsible for the sodium spike in the squid giant axon, or they can be relatively independent of voltage but dependent on the binding of some neurotransmitter, as is the case for most synaptic receptors, such as the acetylcholine receptor at the vertebrate neuromuscular junction or the AMPA and GABA synaptic receptors mediating excitation and inhibition in the central nervous system. Ionic channels are ubiquitous and provide the substratum for all biophysical phenomena underlying information processing, including mediating synaptic transmission, determining the membrane voltage, supporting action potential initiation and propagation, and, ultimately, linking changes in the membrane potential to effective output, such as the secretion of a neurotransmitter or hormone or the contraction of a muscle fiber. Individual ionic channels are amazingly specific. A typical potassium channel can distinguish a K+ ion with a 1.33 Å radius from a Na+ ion of 0.95 Å radius, selecting the former over the latter by a factor of 10,000. This single protein can do this selection at a rate of up to 100 million ions each second (Doyle et al, 1998). At the time of Hodgkin and Huxley’s seminal study in the early 1950s, two broad classes of transport mechanisms were competing as plausible ways for carrying ionic fluxes across the membrane: carrier molecules and pores. At the time, no direct evidence for either one existed. It was not until the early 1970s that the fast ACh synaptic receptor and the Na channel were chemically isolated and purified and identified as proteins.
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Journal articles
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