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دانلود کتاب The Sodium Pump: Structure Mechanism, Hormonal Control and its Role in Disease

دانلود کتاب پمپ سدیم: مکانیسم ساختار ، کنترل هورمونی و نقش آن در بیماری

The Sodium Pump: Structure Mechanism, Hormonal Control and its Role in Disease

مشخصات کتاب

The Sodium Pump: Structure Mechanism, Hormonal Control and its Role in Disease

ویرایش: 1 
نویسندگان: , , , , , ,   
سری:  
ISBN (شابک) : 9783642725135, 9783642725111 
ناشر: Steinkopff-Verlag Heidelberg 
سال نشر: 1994 
تعداد صفحات: 923 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 59 مگابایت

قیمت کتاب (تومان) : 43,000



کلمات کلیدی مربوط به کتاب پمپ سدیم: مکانیسم ساختار ، کنترل هورمونی و نقش آن در بیماری: فیزیولوژی انسان، بیوشیمی، عمومی، قلب و عروق



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توضیحاتی در مورد کتاب پمپ سدیم: مکانیسم ساختار ، کنترل هورمونی و نقش آن در بیماری



سدیم غشاهای سلولی جانوری انرژی شیمیایی حاصل از هیدرولیز آدنوزین 5'-تری فسفات را به حرکت کاتیون های Na + و K + در برابر یک گرادیان الکتروشیمیایی تبدیل می کند. متعاقباً از گرادیان به عنوان منبع انرژی برای جذب بسترهای متابولیک در سلول‌های اپیتلیال قطبی و استفاده از آن برای اهداف ارتباطات در سلول‌های تحریک‌پذیر استفاده می‌شود. اهمیت بیولوژیکی پمپ سدیم از این واقعیت آشکار می شود که بین 20 تا 70 درصد از انرژی متابولیک سلول برای فرآیند پمپاژ مصرف می شود. علاوه بر این، پمپ سدیم یک سیستم بیولوژیکی مهم است که در فرآیندهای تنظیمی مانند حفظ تابولیسم آب سلول ها و ارگانیسم نقش دارد. بنابراین قابل درک است که نیازهای سلولی خاص توسط ایزوفرم های خاص پمپ سدیم بهتر برطرف می شود، که بیان پمپ سدیم و ایزوفرم های آنها توسط هورمون ها تنظیم می شود، همانطور که فعالیت پمپ سدیم از طریق پروتئین کینازهای تنظیم شده با هورمون است. علاوه بر این، به نظر می‌رسد که خود پمپ سدیم گیرنده‌ای برای یک گروه جدید فرضی از هورمون‌ها، مواد شبه دیژیتالیس درون‌زا است که هنوز در بیشتر موارد باید در ساختارشان تعریف شوند. این گروه از مواد دارای همتای شیمیایی شناخته شده خود در استروئیدهای منشأ گیاهی و وزغ است که به طور کلی به عنوان "گلیکوزیدهای دیاک خودرو" شناخته می شوند. آنها حداقل از 200 سال قبل در پزشکی در درمان بیماری های قلبی استفاده پزشکی دارند.


توضیحاتی درمورد کتاب به خارجی

The sodium of animal cell membranes converts the chemical energy obtained from the hydrolysis of adenosine 5' -triphosphate into a movement of the cations Na + and K + against an electrochemical gradient. The gradient is used subse­ quently as an energy source to drive the uptake of metabolic substrates in polar epithelial cells and to use it for purposes of communications in excitable cells. The biological importance of the sodium pump is evident from the fact that be­ tween 20-70% of the cell's metabolic energy is consumed for the pumping pro­ cess. Moreover, the sodium pump is an important biological system involved in regulatory processes like the maintenance of the cells' and organism's water me­ tabolism. It is therefore understandable that special cellular demands are han­ dled better by special isoforms of the sodium pump, that the expression of the sodium pump and their isoforms is regulated by hormones as is the activity of the sodium pump via hormone-regulated protein kinases. Additionally, the sodium pump itself seems to be a receptor for a putative new group of hormones, the endogenous digitalis-like substances, which still have to be defined in most cases in their structure. This group of substances has its chemically well known coun­ terpart in steroids from plant and toad origin which are generally known as "car­ diac glycosides". They are in medical use since at least 200 years in medicine in the treatment of heart diseases.



فهرست مطالب

Front Matter....Pages I-XIX
Transcription factors regulating the Na + /K + -ATPase genes....Pages 1-10
Expression of Functional Na + /K + -ATPase in Yeast....Pages 11-20
Expression of Functional Na + /K + -ATPase in Insect Cells Using Baculovirus....Pages 21-32
Sp1 and an E-Box Binding Protein Regulate Na + /K + -ATPase α2-Subunit Gene....Pages 33-36
Cloning and Analysis of the 5’-Flanking Region of the Rabbit Na + /K + -ATPase α2 Subunit Gene....Pages 37-40
Positive and Negative Transcriptional Elements in the Chicken Na + /K + -ATPase α1-Subunit Gene....Pages 41-44
Transcriptional Regulation of Na + /K + -ATPase α1 Gene Expression by 8-Bromo-Cyclic AMP in Renal Cells....Pages 45-48
Cloning of the Dog Na + /K + -ATPase α1-Subunit....Pages 49-52
Cloning and Characterization of a New Member of the Family of Na + /K + -ATPase Genes....Pages 53-56
The Cloning of Homologous Na + /K + -ATPase Genes from New Species....Pages 57-60
Functional expression of the gastric H,K-ATPase in Xenopus oocytes....Pages 61-65
Over-expression of the peptide containing the ATP-binding site in Na/K-ATPase α-subunit....Pages 66-69
Expression of Na + ,K + -ATPase in Saccharomyces cerevisiae ....Pages 70-73
Regulation of Na + /K + -ATPase α1 and ß1 Expression in Epithelial Cells....Pages 74-77
The α-Subunit of the Na + /K + -ATPase has Catalytic Activity Independent of the ß-subunit....Pages 78-81
Functional Expression of Na + /K + -ATPase α and β Isoforms....Pages 82-85
Ca 2+ /Calmodulin-Sensitive Na + /K + -ATPase Activity Expressed in Chimeric Molecules between the Plasma Membrane Ca 2+ -ATPase and the Na + /K + -ATPase α-Subunit....Pages 86-89
Expression of Na + /K + -ATPase and H + /K + -ATPase fusion proteins in Sf -9 insect cells....Pages 90-93
In Vitro Synthesis of H + /K + -ATPase Polypeptides in Insect Cells Using the Baculovirus Expression System....Pages 94-97
Functional domains of sarcoplasmic reticulum Ca 2+ -ATPase studied by site-directed mutagenesis....Pages 98-109
Conservation Patterns Define Interactions Between Transmembrane Helices of P-type Ion Pumps....Pages 110-119
Structural Studies of Ca 2+ -ATPase by Cryoelectron Microscopy....Pages 120-130
The Topology of Sarcoplasmic Reticulum Ca 2+ -ATPase and Na + ,K + -ATPase in the M5/M6 Region....Pages 131-134
Changes of molecular structure and interaction in the catalytic cycle of sarcoplasmic reticulum Ca 2+ - ATPase....Pages 135-138
Ca 2+ binding to sarcoplasmic reticulum Ca 2+ -ATPase in the absence of chelators....Pages 139-142
Electrogenicity and Countertransport Properties of Reconstituted Sarcoplasmic Reticulum Ca 2+ -ATPase....Pages 143-146
Endo- Exocytotic Sorting of Na + /K + -Pumps in Developing Oocytes and Embryos of Xenopus laevis ....Pages 147-158
Determinants of Cell Surface Distributions of Na + /K + ATPase in Polarized Epithelial Cells....Pages 159-169
Physiologic Relevance of the α2 Isoform of Na,K-ATPase in Muscle and Heart....Pages 170-180
Na + /K + -ATPase of Neurons and Glia....Pages 181-191
Expression of a Truncated α Subunit of the Na + ,K + -ATPase (α-1-T) in Smooth Muscle Cells....Pages 192-199
The C-Terminus of Na + ,K + -ATPase β-Subunit Contains a Hydrophobic Assembly Domain....Pages 200-202
Synthesis and secretion of the extracellular domain of the β1 subunit isoform of NA + /K + -ATPase into the culture medium of CHO cells....Pages 203-205
The Amino-terminal Transmembrane Region of the β Subunit is Important for Na + /K + -ATPase Complex Stability....Pages 206-209
Construction and Expression of Chimeric cDNAs of Na + /K + and H + /K + -ATPase β-subunits....Pages 210-213
Segregation of Maternal Na + /K + -pump α1 and β3 mRNAs to Animal Blastomeres of Early Xenopus Embryos....Pages 214-217
Isoform Specific Antisera for the Na + /K + -ATPase β1 and β2 Subunits: Localization in Fetal Rat Tissues....Pages 218-221
Polyclonal Antibodies to Extramembrane Domains of Na + /K + -ATPase α1 and α3 Isoforms....Pages 222-225
Differential Axonal Transport of Individual (Na,K)-ATPase α Subunit Isoforms in Rat Sciatic Nerve....Pages 226-229
Differential Expression of Na + /K + -ATPase Isoforms in Cultured Rodent Cardiac and Skeletal Muscle Cells....Pages 230-233
Na,K-ATPase Abundance and Activity in HeLa Cells Transfected with Rat α Isoforms....Pages 234-237
Aldosterone Induces a Delayed Parallel Increase in Total and Cell-Surface Na + /K + -ATPase in A6 Kidney Cells....Pages 238-241
Differential aldosterone effects on two epithelial cell pools of [ 3 H]ouabain binding sites....Pages 242-245
Branchial Na + /K + -ATPase Expression in the European Eel (Anguilla anguilla) following Saltwater Acclimation....Pages 246-249
Differentiation of Na + /K + -ATPase by digoxigenin-labelled lectins on blots. Evidence for organ-typical glycoforms....Pages 250-253
Structural Requirements for the Interaction between the Na + /K + -ATPase α - and β-Subunits....Pages 254-263
Structure and Function of Ion Pumps Studied by Atomic Force Microscopy and Gene-transfer Experiments Using Chimeric Na + /K + - and Ca 2+ ATPases....Pages 264-275
Na,K-ATPase: Cardiac Glycoside Binding and Functional Importance of Negatively Charged Amino Acids of Transmembrane Regions....Pages 276-286
Functional Analysis of the Disulfide Bonds of Na + /K + -ATPase β-subunit by Site-directed Mutagenesis....Pages 287-296
Purified Renal Na + /K + -ATPase; Subunit Structure and Structure-Function Relationships of the N-Terminus of the α1- Subunit....Pages 297-308
Organization of the Cation Binding Domain of the Na + /K + -pump....Pages 309-320
The Stabilization of Cation Binding and its Relation to Na + /K + -ATPase Structure and Function....Pages 321-331
Is the Sodium Pump a Functional Dimer?....Pages 332-341
Atomic Force Microscopy of Crystallized Na + /K + -ATPase....Pages 342-345
Scanning force microscopical studies of the Na + /K + -ATPase....Pages 346-349
Molecular Imaging of Purified Na + /K + -ATPase Molecules in Canine Kidney Membranes Using Atomic Force Microscopy....Pages 350-353
Cytoplasmic and Extracellular Domains in Two-dimensional Crystals of Na + /K + -ATPase....Pages 354-357
Membrane Topology of the α Subunit of Na,K-ATPase....Pages 358-361
Identification of epitopes recognized by Na + /K + -ATPase-directed antibodies....Pages 362-365
Probing the α-subunit folding by dot-sandwich immunochemical analysis....Pages 366-369
Determination of sidedness of COOH-terminus of Na + /K + ATPase alpha subunit by vectorial labeling....Pages 370-373
Approaches to Disulfide Bonds Identification in the Na + /K + -ATPase Alpha Subunit....Pages 374-376
Is the Cysteine 104 Part of the Sugar Binding Subsite of the Cardiac Glycoside Receptor of Na + /K + -ATPase?....Pages 377-380
Towards Understanding the Molecular Mechanism of the Inhibitory Cardiac Glycoside Interaction with the Receptor Enzyme Na + /K + -Transporting ATPase....Pages 381-384
Palytoxin induces K + release from yeast cells expressing Na + , K + -ATPase.....Pages 385-388
Bafilomycin and Concanamycin Derivatives as Specific Inhibitors of P- and V-Type ATPases....Pages 389-392
Tertiary Amines as Cytosolic K + -Antagonists of Gastric H + /K + -ATPase....Pages 393-396
Probing the cation binding site of Na + /K + -ATPase with competitive Na + antagonists....Pages 397-400
Structure of the Cation Occlusion Domain of Na + /K + ATPase Studied by Proteolysis, Interaction with Ca 2+ ions and Thermal Denaturation....Pages 401-404
Functional consequences of alterations to Glu329 and other residues in the transmembrane sector of Na + /K + -ATPase....Pages 405-408
Identification of Glu 779 as an Essential Part of the Cation Binding Site of the Sodium Pump....Pages 409-412
Rearrangements of the membrane-associated segments of Na + /K + -ATPase upon phosphorylation, ion-occlusion and ouabain binding....Pages 413-416
Na + /K + -ATPase: Regulation of K + Access Channels by K + ....Pages 417-420
The Ribose Conformation of ATP Affects the Kinetic Properties of Na + /K + -ATPase....Pages 421-424
ATP accelerates phosphorylation of the Na + /K + -ATPase acting with low apparent affinity....Pages 425-428
Effects of ATP on the Steady-State Level of the Phosphoenzyme of Pig Kidney Na + /K + -ATPase....Pages 429-432
A Phase-Change Model of Transient Kinetics of Phosphoenzyme of Na + /K + -ATPase....Pages 433-436
The E 2 Conformation of Na + /K + -ATPase During the Na + ATPase Activity....Pages 437-440
Parallel Pathway Models for Electric Organ Na + - and Na + /K + -ATPases....Pages 441-444
Enzymic activities of solubilised and dissociated (α + ß) chains and of soluble αß protomers of pig kidney Na + /K + -ATPase....Pages 445-448
One Phosphorylation Site per αβ-Protomer in Reconstituted Shark Na + /K + -ATPase.....Pages 449-452
Protomer Association of Solubilized Na + /K + -ATPase Induced by ATP....Pages 453-456
Arginine Appears not to be Located in the Active Site of Na + /K + -ATPase....Pages 457-459
Does The α-Subunit of the Red Cell Membrane Na + /K + -ATPase Exist as a Homodimer?....Pages 460-463
Functional Diversity of Tissue-Specific Na + /K + -Pumps Delivered from Exogenous Sources into Erythrocytes....Pages 464-467
Two-sided bi-directional Na + /K + - ATPase-liposomes. Structure and function....Pages 468-471
Voltage Sensitivity of the Na + /K + Pump: Structural Implications....Pages 472-481
Electrogenic Properties of the Endogenous and of Modified Torpedo Na + /K + -Pumps in Xenopus Oocytes: The Access Channel for External Cations....Pages 482-494
Electrogenic and electroneutral partial reactions in Na + /K + ATPase from eel electric organ....Pages 495-506
Flexibility and Constraint in the Interpretation of Na + /K + Pump Electrogenicity: What is an Access Channel?....Pages 507-516
Partial Reactions in Na + /K + - and H + /K + -ATPase Studied with Voltage-sensitive Fluorescent Dyes....Pages 517-528
Changes of membrane capacitance coupled with electrogenic transport by the Na + /K + -ATPase....Pages 529-532
Reversal potential of Na + pump current in cardioballs at various ΔG of ATP hydrolysis....Pages 533-536
Characteristics of sodium pump current in guinea-pig and rat dorsal root ganglion neurons....Pages 537-540
Kinetic Analysis and Voltage Dependency of Alpha-3 Na + /K + -Pump....Pages 541-544
Access Channel Model for Na + and K + Translocation by the Na + /K + -pump....Pages 545-548
Na + /K + -pump mutant with a slow charge translocating step....Pages 549-552
Analysing the Na + /K + -pump in Outside-out Giant Membrane Patches of Xenopus Oocytes....Pages 553-556
The Role of Putative Intramembraneous Glutamic Acid Residues of the α-Subunit of the Sodium Pump in External Cation Binding....Pages 557-560
Conformational States of Na + /K + -ATPase Probed with RH-421 and Eosin....Pages 561-564
Do Lipophilic Anions Affect the Spatial Organization of the ATP Binding Site of the Na + /K + -ATPase?....Pages 565-568
Na + /K + -ATPase: Probing for a High Affinity Binding Site for Na + by Spectrofluorometry....Pages 569-572
Interaction between cytoplasmic sodium binding sites and cardiotonic steroids....Pages 573-576
Dielectric Coefficients of the Extracellular Release of Sodium Ions....Pages 577-580
Changes in the Conformational State of Probe-Labeled Na + /K + -ATPase in Real Time....Pages 581-592
Mechanism of the Conformational Change in Fluorescein 5′-Isothiocyanate-Modified Na + /K + ATPase....Pages 593-604
Relaxation Spectroscopy Applied to Determination of Rate Constants for Ligand Binding and Dissociation....Pages 605-608
Does Eosin Treat all P-type ATPases Equally?....Pages 609-612
Kinetic Analyses of Conformational Changes and Charge Transfer by Na + /K + -ATPase....Pages 613-616
Reassignment of cation-induced population of main conformational states of FITC-Na + /K + -ATPase as detected by fluorescence spectroscopy and characterized by equilibrium binding studies....Pages 617-620
Caged Na + and K + ligands: photochemical properties, application for membrane transport studies and selective fluorimetric detection of alkali ions....Pages 621-624
Kinetic and spectroscopic characterisation of the cardiac glycoside binding site of Na + /K + -ATPase employing a dansylated ouabain derivative....Pages 625-628
Kinetics and mechanism of cation-binding to Na + ,K + -ATPase....Pages 629-632
Comparison of E 1 and E 2 Conformers of Membrane Bound Na + /K + -ATPase Using Time-Resolved Phosphorescence Anisotropy Measurements....Pages 633-636
Application of Time-Resolved Phosphorescence Anisotropy Measurement for the Study of Rotational Mobility of Eosin-Labelled Na + /K + -ATPase and Ca 2+ ATPase....Pages 637-640
Pyridoxal-5’ -phosphate Probe at Lys 480 can Monitor Conformational Events Induced by Acetyl Phosphate in Na + /K + -ATPase....Pages 641-644
Phosphorylation of Na + /K + -ATPase by p-Nitrophenylphosphate and Other Phosphatase Substrates....Pages 645-648
Estimation of Distance Changes Between Cys-964 and Lys-501 in Na + /K + -ATPase Intermediates and the Orientation of Transmembrane Segment Containing Cys-964....Pages 649-652
Heterogeneity of distribution and of regulation by corticosteroids of transport ATPases along the rat collecting tubule....Pages 653-661
Hormonal regulation of Na + ,K + -ATPase activity....Pages 662-669
Regulation of the Na + ,K + -pump by Insulin....Pages 670-681
Phosphorylation of Na,K-ATPase by Protein Kinases: Structure-Functions Relationship....Pages 682-685
Stimulation by Phorbol 12-Myristate 13-Acetate (PMA) of Na,K-Pump Mediated 86 Rb + -Influx Into Human Lymphocytes....Pages 686-689
Regulation of the Sodium Pump by Fatty Acids and Acylglycerols....Pages 690-693
Relations of Na + /K + -Pump Kinetics to Polyunsaturated Molecular Species of Plasmalogen-Phospatidylethanolamine in Intact Human Erythrocytes....Pages 694-697
Inhibitory Actions of Monoclonal Antibody to Phosphatidylserine on Na + /K + -ATPase....Pages 698-701
Regulation of sodium pump with physiologically active ligands (prostaglandins, galanin)....Pages 702-703
Characterization of the molecular isoforms of Na + /K + -ATPase submits along the rat nephron by polymerase chain reaction....Pages 704-709
Increase in Na Pump Activity of Brain-type Isoforms via Increased Turnover Rate after Glutamate Excitation of Cerebral Neurons....Pages 710-713
The α3 isoform protein of the Na + /K + -ATPase is associated with the sites of neuromuscular and cardiac impulse transmission....Pages 714-717
Direct Correlation of Na + /K + -ATPase -Isoform Abundance and Myocardial Contractility in Mouse Heart....Pages 718-721
Discovery of Endogenous Ouabain — A New Mammalian Hormone....Pages 722-731
Structure and Biological Activity of the Na + /K + -ATPase Inhibitor Isolated from Bovine Hypothalamus: Difference from Ouabain....Pages 732-742
Identification and physiological significance of Na + /K + -pump inhibitors in rats....Pages 743-754
Endogenous Digitalis-Like Factor from Umbilical Cord and Ouabain: Comparison of Biochemical Properties....Pages 755-758
New steroidal digitalis-like compounds in human cataractous lenses....Pages 759-762
Large Scale Purification of an Endogenous Na + /K + -pump Inhibitor from Bovine Adrenal Glands....Pages 763-766
Demonstration of Inhibitors of the Sodium Pump in Human Plasma and Bovine Adrenals Cross-Reacting with Proscillaridin A Antibodies....Pages 767-770
A Labile Endogenous Na-pump Inhibitor in Man....Pages 771-774
Ouabain-like immunoreactivity in the brain and the adrenal medulla is increased in DOCA-salt hypertensive rats....Pages 775-778
Changes in the Endogenous Ouabain-like Substance in the Brain and Cerebrospinal Fluid after Cold-induced Vasogenic Brain Edema....Pages 779-782
Modulation of the Ca 2+ /Mg 2+ -ATPase Activity of Synaptosomal Plasma Membrane Vesicles by the Hypothalamic Hypophysary Na + /K + -ATPase Inhibitory Factor (HHIF)....Pages 783-786
Endogenous Digitalis in Acute Myocardial Ischemia....Pages 787-790
Sensitivity of the failing and nonfailing human heart to cardiac glycosides....Pages 791-796
Autoimmune gastritis and H+/K+-ATPase....Pages 797-806
Na + Modulation of K + Transport by Na + /K + -Pump in Red Cells of Salt-sensitive and Salt-resistant Dahl Rats....Pages 807-811
Biochemical characterization of the Na + /K + -ATPase isoforms in human heart....Pages 812-815
The Canine Cardiac α 3 Isoform of Na + /K + -ATPase is Highly Sensitive to Digitoxigenin....Pages 816-819
Heterogeneous Na + Sensitivities of Na + /K + -ATPase Isoenzymes in Membranes ; Modulation by Anaesthesia and Diets....Pages 820-823
Na + /K + -ATPase Isoforms in Human Heart; Variation with Mammalian Species and Pathophysiological States....Pages 824-827
Non Effectiveness of Ouabain and Decrease in Na + /K + -ATPase Affinity for Ouabain in Failing Rabbit Heart....Pages 828-831
Digoxin Treatment and Congestive Heart Failure in Light of Human Cardiac and Skeletal Muscle Digitalis Glycoside Receptor Studies....Pages 832-835
Age-Related Changes in Na + /K + -ATPase and Ca 2+ -ATPase Concentration in Rat Heart Ventricle....Pages 836-839
Digoxin Induced Dysfunction of Skeletal Muscle Potassium Homeostasis During Exercise....Pages 840-843
Na + /K + -ATPase Isoform Expression in Cardiac Muscle from Dahl Salt-Sensitive and Salt-Resistant Rats....Pages 844-847
Na + /K + -ATPase from spontaneously hypertensive rats....Pages 848-851
Na + /K + -pump α3 Isoform in Rat Vascular Smooth Muscle and its Physiological Role....Pages 852-855
Hormonal Effects on the Expression of Na + /K + -ATPase Beta Subunit During Pregnancy....Pages 856-859
Does Human Skeletal Muscle Na + /K + -ATPase Concentration Correlate With Capacity for Muscle Performance?....Pages 860-863
Regulation of the Na + /K + -pump proteins in skeletal muscle: Acute effects of insulin on α2 distribution and muscle fibre-type specific expression of β subunits....Pages 864-867
Insulin as Regulator of Skeletal Muscle Na + /K + -ATPase Concentration in Rats With Experimental Diabetes and Patients With Diabetes Mellitus....Pages 868-871
The maximum capacity for active sodium-potassium transport in the slow and fast skeletal muscle of obese (ob/ob) and lean mice....Pages 872-875
Alterations in Na + /K + ATPase Isoforms of Different Tissues in Streptozotocin Induced Diabetes Mellitus....Pages 876-879
Properties of the Oxidized Na + /K + -ATPase....Pages 880-883
Modification of Na + /K + -ATPase in a Model of Epilepsy in the Rat....Pages 884-887
Tumor development and changes in Na + /K + -pump parameters....Pages 888-890
Distinct Interaction of Mercury and Silver with Isolated Na + /K + -ATPase....Pages 891-894
Back Matter....Pages 895-906




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