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| Preface | v | |||||||||||
| 1. | Structure and Function of Na/K-ATPase | |||||||||||
| Reviews | ||||||||||||
| Structure and function of Na[superscript +] or K[superscript +] (TI[superscript +]) binding sites in Na, K-ATPase | 1 | |||||||||||
| How ouabain works: Key role of the PLasmERosome | 5 | |||||||||||
| Mechanisms of aldosterone's action on epithelial Na[superscript +] transport | 9 | |||||||||||
| New aspects of Na/K-ATPase: Acid labile ATP and/or ADP/Pi binding to the tetraprotomer, ([alpha beta])[subscript 4] | 15 | |||||||||||
| Conformational and functional changes in rat renal Na/K-ATPase caused by aging | 19 | |||||||||||
| Gating role of the N-terminus of "-subunit of the Na[superscript +]/K[superscript +]-ATPase converted into a channel by palytoxin | 23 | |||||||||||
| Transcriptional regulation of Na,K-ATPase alpha 1 subunit gene | 27 | |||||||||||
| Regular articles | ||||||||||||
| Hypertensinogenic action of ouabain as a sodium transport inhibitor | 31 | |||||||||||
| Na[superscript +] translocation by the cardiac Na[superscript +]/K[superscript +] pump is accelerated by the cAMP-PKA pathway | 33 | |||||||||||
| The mechanism of induction of THP-1 cell differentiation by bufalin, a potent Na[superscript +],K[superscript +]-ATPase inhibitor | 35 | |||||||||||
| Inward rectifier potassium channel Kir7.1 is highly expressed in the ion-transporting epithelial cells: Implication for a functional coupling with Na[superscript +],K[superscript +]-ATPase | 39 | |||||||||||
| Alteration of renal Na-K-ATPase in non-insulin dependent diabetes mellitus (NIDDM) model rats | 41 | |||||||||||
| Influence of Na/K ATPase pump and Ca[superscript 2+] channel blockers on cytotoxicity of T-2 toxin | 43 | |||||||||||
| 2. | Function and Regulatory Mechanism of Na/Cl Cotransporter | |||||||||||
| Reviews | ||||||||||||
| Na-K-Cl cotransporters in salt-sensitive hypertension | 49 | |||||||||||
| Regular articles | ||||||||||||
| Gene transcription of thiazide-sensitive Na-Cl cotransporter: Effect of steroid hormones | 53 | |||||||||||
| Loss of function by a mutation in thiazide-sensitive Na-Cl cotransporter gene found in Gitelman's syndrome | 55 | |||||||||||
| 3. | Mechanism and Diseases of Phosphate Transport System | |||||||||||
| Reviews | ||||||||||||
| Cellular/molecular mechanisms of renal and intestinal Na/Pi-cotransport | 59 | |||||||||||
| Regular articles | ||||||||||||
| Pathophysiology of X-linked hypophosphatemic rickets (XLH) | 63 | |||||||||||
| 4. | Molecular and Pharmacological Properties of Na/Ca-Exchanger | |||||||||||
| Reviews | ||||||||||||
| Transcription control of the Na[superscript +]/Ca[superscript 2+] exchanger | 69 | |||||||||||
| Na[superscript +]/Ca[superscript 2+] Exchanger: Molecular and pharmacological properties | 73 | |||||||||||
| Regulation and stoichiometry of Na[superscript +]-Ca[superscript 2+] exchange in inside-out macro patch excised from intact guinea-pig ventricular cells | 77 | |||||||||||
| Sodium-coupled ion transporters and the macula densa cell Ca-signaling | 81 | |||||||||||
| Regular articles | ||||||||||||
| Amiodarone inhibits Na[superscript +]/Ca[superscript 2+] exchange current in Guinea-pig ventricular cells | 85 | |||||||||||
| Signal cascade of Na[superscript +]/Ca[superscript 2+] exchanger-involved delayed apoptosis of astrocytes | 87 | |||||||||||
| Functional importance of internal repeats in Na[superscript +]/Ca[superscript 2+] exchanger | 89 | |||||||||||
| Protein kinase C-dependent regulation of Na[superscript +]/Ca[superscript 2+] exchanger | 91 | |||||||||||
| Functional coupling of Na[superscript +]/Ca[superscript 2+] exchanger with Ca[superscript 2+] release from intracellular stores in cultured cells from guinea pig ileum | 93 | |||||||||||
| Osteoclastogenesis and activation of Na[superscript +]/Ca[superscript 2+] exchanger isoform 1 | 95 | |||||||||||
| 5. | Role of Na/H Exchanger in Biological Controls | |||||||||||
| Reviews | ||||||||||||
| Short-term regulation of NHE3 by EGF and protein kinase C but not protein kinase A involves vesicle trafficking in epithelial cells and fibroblasts | 99 | |||||||||||
| Structure-function relationships of mammalian Na[superscript +]/H[superscript +] exchangers. Regulatory mechanisms and role of the cytoskelton | 111 | |||||||||||
| Structure-function of the Na[superscript +]/H[superscript +] exchanger: A novel membrane topology model | 115 | |||||||||||
| The cloned capsaicin receptor is a heat- and proton-activated ion channel | 119 | |||||||||||
| Regular articles | ||||||||||||
| Regulation of Na[superscript +]/H[superscript +] exchanger activity by hyperosmolality in rat kidney inner medullary collecting duct cells | 123 | |||||||||||
| Cell swelling-associated activation of a voltage gated proton (H[superscript +]) current in rat microglia | 125 | |||||||||||
| Maintenance of acid-base balance by Na[superscript +]/H[superscript +] exchanger (NHE3) and Na[superscript +]/HCO[subscript 3 superscript -] cotransporter (NBC) in the gill of dace adapted to extremely acidic conditions (pH 3.5) | 127 | |||||||||||
| Hyperosmolality increases expression of a Na[superscript +]/H[superscript +] exchanger isoform NHE1, but not NHE4 in cultured rat kidney inner medullary collecting duct cells | 129 | |||||||||||
| The role of acidic residues in membrane-spanning regions of Na[superscript +]/H[superscript +] antiporters from bacteria | 133 | |||||||||||
| Na[superscript +] and Li[superscript +] tolerance of a freshwater cyanobacterium Synechococcus sp. PCC 7942 transformed with nhaAn gene from Vibrio alginolyticus | 135 | |||||||||||
| 6. | Physiological, Biochemical and Biophysical Aspects of Sodium Channel | |||||||||||
| Reviews | ||||||||||||
| The molecular biology and function of H[superscript +]-gated Na[superscript +] channels | 141 | |||||||||||
| Structure, function, and molecular pharmacology of voltage-gated sodium channels | 147 | |||||||||||
| Dopamine, a modulator of sodium homeostasis in peripheral tissue as well as in central nervous system | 153 | |||||||||||
| Novel members in the NaC/DEG family of sodium channels | 159 | |||||||||||
| Structure of the voltage sensitive sodium channel | 163 | |||||||||||
| Functions of voltage sensitive ion channels of muscles and its relation to myotonia and periodic paralysis | 167 | |||||||||||
| Calmodulin is a ligand for neuronal voltage-gated sodium channels | 173 | |||||||||||
| Induction of epithelial Na[superscript +] channel (ENaC) in rat ileum after proctocolectomy | 177 | |||||||||||
| Regular articles | ||||||||||||
| Inorganic cation inhibition of sodium conductance in adult rat lung type II pheumocytes | 181 | |||||||||||
| Neuroprotective agents, riluzole and NS-7, prevent catecholamine release by reducing sodium influx in adrenal chromaffin cells | 183 | |||||||||||
| Mitogen-activated protein kinase, protein kinase C and cyclic AMP-dependent protein kinase differentially regulate the density of cell surface sodium channels | 185 | |||||||||||
| Model analysis of the ion channel diseases of muscle | 187 | |||||||||||
| A novel class of Na[superscript +] and Ca[superscript 2+] channel dual blockers with highly potent anti-ischemic effects | 189 | |||||||||||
| Molecular cloning of a novel form (two repeat) protein related to voltage-gated sodium and calcium channels | 191 | |||||||||||
| Biophysical properties of ENaC associated with Liddle's disease expressed in Xenopus oocytes | 193 | |||||||||||
| Identify the kinetic switch in abENaC | 199 | |||||||||||
| Mechanisms of cation permeation in cardiac sodium channel: Description by dynamic pore model | 201 | |||||||||||
| Effect of cAMP on electrogenic Na[superscript +] absorption in rat distal colon | 203 | |||||||||||
| 7. | Regulatory Mechanism of Ca Channel | |||||||||||
| Reviews | ||||||||||||
| Role of inositol 1,4,5-triphosphate (IP3) gated calcium release channel in cell function | 207 | |||||||||||
| Cloning and expression of the epithelial calcium channel, ECaC | 213 | |||||||||||
| Feedback regulation of the inositol 1,4,5-trisphosphate receptor/Ca[superscript 2+] release channel by Ca[superscript 2+] | 217 | |||||||||||
| Receptor-activated Ca[superscript 2+] influx: TRP Proteins and capacitative Ca[superscript 2+] entry | 221 | |||||||||||
| Regular articles | ||||||||||||
| ANP stimulates Ca[superscript 2+] reabsorption in rabbit kidney via a cGMP-dependent mechanism | 225 | |||||||||||
| Association pattern of the heterooligomer of inositol 1,4,5-trisphosphate receptors | 227 | |||||||||||
| Dialysis of inositol 1,4,5-trisphosphate and cADP-ribose induced inward currents and Ca[superscript 2+] uptake in turtle olfactory sensory neurons | 231 | |||||||||||
| Calcium channel blockade by NS-7, a neuroprotective compound, is dependent on channel activity | 233 | |||||||||||
| Effects of myosin light chain kinase inhibitor on the function of osteoclast like cells | 235 | |||||||||||
| 8. | Functions and Biological Aspects on Potassium Channel | |||||||||||
| Reviews | ||||||||||||
| Membrane phospholipids influence potassium channel function | 239 | |||||||||||
| Translocation of a calcium-permeable cation channel induced by insulin-like growth factor-1 | 243 | |||||||||||
| Regular articles | ||||||||||||
| Hypoxia-sensitive K[superscript +] channels in rat adrenal chromaffin cells | 247 | |||||||||||
| Regulation of ATP-dependent K[superscript +] channel in opossum kidney proximal tubule cells by phosphorylation and dephosphorylation processes | 251 | |||||||||||
| A novel type of ATP block on an IK channel | 253 | |||||||||||
| Changes in gene expression of cardiac K[superscript +] channels in rat fetus | 255 | |||||||||||
| Expression of putative stretch activated nonselective cation channels of mammal | 257 | |||||||||||
| 9. | A Role of Chloride Channel and Its Related Proteins in Homeostasis of Bio-organs | |||||||||||
| Reviews | ||||||||||||
| Cell volume-sensitive Cl channel and ATP release | 261 | |||||||||||
| Immunolocalization of voltage-gated chloride channels CLC3 and CLC5 in rat brain | 265 | |||||||||||
| Regular articles | ||||||||||||
| Ca[superscript 2+]-activated Cl-channels: A newly emerging anion transport family | 269 | |||||||||||
| Effect of extracellular Ca[superscript 2+] on volume sensitivity of the swelling-activated Cl - channel in epithelial cells | 271 | |||||||||||
| Co-operative action of hypotonic stress and a rise in external Ca[superscript 2+] on Cl currents of murine osteoclasts | 273 | |||||||||||
| Chloride secretion caused by thermostable direct hemolysin of Vibrio parahaemolyticus | 275 | |||||||||||
| 10. | Biological Aspects on Water Channels | |||||||||||
| Regular articles | ||||||||||||
| Trafficking of AQP5 water channel in parotid glands by neurotransmitters | 279 | |||||||||||
| Phloretin inhibits a regulatory volume decrease in human epithelial cells | 281 | |||||||||||
| 11. | Fundamental and Applied Studies on Transports of Peptides and the Other Organic Compounds | |||||||||||
| Reviews | ||||||||||||
| Flounder renal transporters for p-aminohippurate (fROAT) and dicarboxylates (fNaDC-3) | 285 | |||||||||||
| Peptide Transporter and its appilication for drug delivery | 289 | |||||||||||
| Molecular biology of multispecific organic anion transporter family (OAT family) | 293 | |||||||||||
| Is transport mechanism-based drug molecular design possible? Molecular design of biochemical probes targeting MRP1/GS-X pump | 297 | |||||||||||
| Structure, function and regulation of organic cation transporters | 301 | |||||||||||
| Transporter-mediated drug delivery and targeting: What are the opportunities? | 307 | |||||||||||
| The family of amino acid transporters associated with type II membrane glycoproteins: The roles in epithelial transport and cellular nutrition | 311 | |||||||||||
| Role of the MRP family in the intestinal and hepatobiliary transport of xenobiotics | 315 | |||||||||||
| Regular articles | ||||||||||||
| The identification of the bile acid binding site in the ileal lipid binding protein of the ileal Na[superscript +]/bile acid cotransport system | 319 | |||||||||||
| Substrate specificity and pharmacophore model of ileal and hepatic Na[superscript +]/bile acid cotransporters | 321 | |||||||||||
| Na[superscript +]-dependent carnitine transport is mediated by multifunctional OCTN transporter family | 323 | |||||||||||
| Hybrid motor with the H[superscript +]- and Na[superscript +]-driven components can rotate Vibrio polar flagella using sodium ion | 327 | |||||||||||
| Hypoxanthine transport and transient expression of possible regulatory proteins in COS-1 cells | 329 | |||||||||||
| Molecular cloning and characterization of multispecific organic anion transporter 4, OAT4 | 331 | |||||||||||
| Tubular localization and drug recognition of organic anion transporters OAT-K1 and OAT-K2 | 335 | |||||||||||
| Sigma receptor ligand-induced up-regulation of H[superscript +]/peptide transporter PEPT1 in the human intestinal cell line Caco-2 | 337 | |||||||||||
| Functional characteristics of brain peptide transporter in rat: Involvement of high affinity type H[superscript +]/peptide transporter PEPT2 | 339 | |||||||||||
| Genomic structure, mutations and, functional role of the canalicular multispecific organic anion transporter (MRp2/cMOAT) gene in Dubin-Johnson syndrome and cancer | 341 | |||||||||||
| Epinephrine-induced transmural transport of benzylpenicillin in rat small intestine | 343 | |||||||||||
| 12. | A Role and Genetic Control of SGLTs in Glucose Metabolism | |||||||||||
| Review | ||||||||||||
| Post-transcriptional regulation of Na[superscript +]/glucose cotransporter expression | 347 | |||||||||||
| Regular articles | ||||||||||||
| Cloning and characterization of rat SGLT2 isoforms | 355 | |||||||||||
| Transportability and recognizability of SGLT1 for alkylglucosides: TRN (Transportable, recognizable, non-interactive) classification of glucose conjugates | 357 | |||||||||||
| NGF-induced glucose uptake into rat pheochromocytoma PC12 cells | 359 | |||||||||||
| Characterization of Na[superscript +]/glucose cotransporter (SGLT1) from rat jejunum | 361 | |||||||||||
| Glucose transport activity in cultured renal epithelial cells is suppressed by angiotensin II | 365 | |||||||||||
| 13. | Molecular Biology on GABA Receptor and Other's | |||||||||||
| Reviews | ||||||||||||
| Ionotropic GABA receptors: Ligand gated ion channels | 369 | |||||||||||
| The neuronal GABA transporter GAT1 as a target for action of antiepileptic drugs | 373 | |||||||||||
| Glutamic acid decarboxylase and GABA transporter as GABAergic neuron markers | 377 | |||||||||||
| Regular articles | ||||||||||||
| Effects of GABA-uptake inhibitor and GABA-transaminase inhibitor in EL mice | 383 | |||||||||||
| Potentiation of GABA[subscript A] receptors expressed in Xenopus oocytes by perfume and phytoncid | 386 | |||||||||||
| Functional mapping of L-DOPAergic systems in the CNS | 387 | |||||||||||
| Alterations of glutamate and GABA responses by in vivo neuronal injury | 391 | |||||||||||
| Imaging glutamate neurotransmission by laserphotolysis microscopy | 395 | |||||||||||
| Cationic modulation of 5-HT[subscript 3] receptor response in Guinea-pig atrium sensory neuron | 399 | |||||||||||
| TNF-[alpha] and dexamethasone suppress -DOPA transport in the blood-brain barrier (BBB) | 401 | |||||||||||
| A critical role of nicotinic Ach receptors in a pathway of NMDA receptor-dependent LTP | 403 | |||||||||||
| 14. | A Role of Purinergic Receptors as Sensory and Regulatory Systems | |||||||||||
| Regular articles | ||||||||||||
| Ionotropic P2X[subscript 7] receptor-mediated cell death in rat glomerular mesangial cells | 407 | |||||||||||
| Distinct responses to ATP of identified neurons in mesencephalic trigeminal nucleus and locus coeruleus in the rat pontine slice | 411 | |||||||||||
| Synergistic interaction of oxytocin and purinergic receptors on intracellular Ca[superscript 2+] increase via inositol-phospholipid signalling pathways in mammary myoepithelial cells | 413 | |||||||||||
| A2a adenosine receptor facilitates hippocampal neurotransmission by blocking glutamate uptake via the glial glutamate transporter GLT-1 | 415 | |||||||||||
| 15. | Structure and Function of ABC and Related Proteins | |||||||||||
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Title: Control and diseases of sodium dependent transport proteins and ion channels Manufacturer: ElsevierElsevier Item Number: 9780444829863 Number: 1 Product Description: Control and diseases of sodium dependent transport proteins and ion channels Universal Product Code (UPC): 9780444829863 WonderClub Stock Keeping Unit (WSKU): 9780444829863 Rating: 4/5 based on 2 Reviews Image Location: https://wonderclub.com/images/covers/98/63/9780444829863.jpg Weight: 0.200 kg (0.44 lbs) Width: 0.000 cm (0.00 inches) Heigh : 0.000 cm (0.00 inches) Depth: 0.000 cm (0.00 inches) Date Added: August 25, 2020, Added By: Ross Date Last Edited: August 25, 2020, Edited By: Ross
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Sairam Kannan reviewed Control and diseases of sodium dependent transport proteins and ion channels on January 18, 2012 Control and diseases of sodium dependent transport proteins and ion channels
Highly informative and helpful. Great read for anyone who is looking to understand social dynamics and origins of dysfunctional behavior. Incredibly insightful, logical and a vital tool for everyone wishing to heal from various dysfunctional family dynamics. I love his honesty with his own healing journey. His warmth and empathy, by which he discusses our core issues, their triggers and how they can manifest themselves into our false self, is so encouraging. No 'tough love' here, just open honest digging into 'the human condition' and how we all can truly heal, if we are willing to put in the time to address and grieve our varies losses. This book is a keeper!!
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