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دانلود کتاب Ion Channels

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Ion Channels

مشخصات کتاب

Ion Channels

ویرایش: 1 
نویسندگان:   
سری: Methods in Enzymology 207 
ISBN (شابک) : 9780121821081 
ناشر: Academic Press 
سال نشر: 1992 
تعداد صفحات: 957 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 19 مگابایت 

قیمت کتاب (تومان) : 32,000



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توضیحاتی در مورد کتاب کانال های یونی

این کتاب تکنیک‌های الکتروفیزیولوژیک مدرن را برای ثبت و تجزیه و تحلیل کانال‌های یونی در سیستم‌های مختلف از جمله سلول‌های کشت، تخمک‌های Xenopus، برش‌های مغزی، اندامک‌های سلولی و میکروارگانیسم‌ها شرح می‌دهد. بسیاری از فصل ها به پیشگیری و اصلاح مصنوعات الکتروفیزیولوژیکی می پردازند. همچنین شامل روش‌هایی برای خالص‌سازی و بیان ژن‌ها و پروتئین‌های کانال یونی است


توضیحاتی درمورد کتاب به خارجی

This book describes modern electrophysiological techniques for recording and analysis of ion channels in various systems including cells in culture, Xenopus oocytes, brain slices, cellular organelles, and microorganisms. Many chapters deal with the prevention and correction of electrophysiological artifacts. Also included are methods for the purification and expression of ion channel genes and proteins



فهرست مطالب

Content: 
Contributors to volume 207
Pages ix-xii

Preface
Pages xiii-xvi
Bernardo Rudy, Linda Iverson

Volumes in series
Pages xvii-xxxiii

[1] Patch clamp techniques: An overview Original Research Article
Pages 3-14
Michael Cahalan, Erwin Neher

[2] Constructing a patch clamp setup Original Research Article
Pages 14-66
Richard A. Levis, James L. Rae

[3] Glass technology for patch clamp electrodes Original Research Article
Pages 66-92
James L. Rae, Richard A. Levis

[4] Ion channel selectivity, permeation, and block Original Research Article
Pages 92-100
Ted Begenisich

[5] Access resistance and space clamp problems associated with whole-cell patch clamping Original Research Article
Pages 100-122
Clay M. Armstrong, William F. Gilly

[6] Correction for liquid junction potentials in patch clamp experiments Original Research Article
Pages 123-131
Erwin Neher

[7] Nonstationary noise analysis and application to patch clamp recordings Original Research Article
Pages 131-148
Stefan H. Heinemann, Franco Conti

[8] Prevention of rundown in electrophysiological recording Original Research Article
Pages 149-155
Richard Horn, Stephen J. Korn

[9] Patch voltage clamping with low-resistance seals: Loose patch clamp Original Research Article
Pages 155-176
William M. Roberts, Wolfhard Almers

[10] Perfusing patch pipettes Original Research Article
Pages 176-181
J.M. Tang, J. Wang, R.S. Eisenberg

[11] Whole-cell recording of calcium channel currents Original Research Article
Pages 181-193
Bruce P. Bean

[12] Recording from calcium-activated potassium channels Original Research Article
Pages 194-207
B.S. Pallotta, A.L. Blatz, K.L. Magleby

[13] Patch-clamping cells in sliced tissue preparations Original Research Article
Pages 208-222
F.A. Edwards, A. Konnerth

[14]Xenopus oocyte microinjection: From gene to protein Original Research Article
Pages 225-265
Hermona Soreq, Shlomo Seidman

[15] Maintenance of Xenopus laevis and oocyte injection Original Research Article
Pages 266-279
Alan L. Goldin

[16] Preparation of RNA for injection into Xenopus oocytes Original Research Article
Pages 279-297
Alan L. Goldin, Katumi Sumikawa

[17] Tissue RNA as source of ion channels and receptors Original Research Article
Pages 297-309
Terry P. Snutch, Gail Mandel

[18] In Vitro synthesis of RNA for expression of ion channels in Xenopus oocytes Original Research Article
Pages 310-319
Richard Swanson, Kimberly Folander

[19] Electrophysiological recording from Xenopus oocytes Original Research Article
Pages 319-339
Walter StГјhmer

[20] Use of stage II–III Xenopus oocytes to study voltage-dependent ion channels Original Research Article
Pages 339-345
Douglas S. Krafte, Henry A. Lester

[21] Intracellular perfusion of Xenopus oocytes Original Research Article
Pages 345-352
Nathan Dascal, Gavin Chilcott, Henry A. Lester

[22] Recording of gating currents from Xenopus oocytes and gating noise analysis Original Research Article
Pages 353-368
Stefan H. Heinemann, Franco Conti, Walter StГјhmer

[23] Ligand-binding assays in Xenopus oocytes Original Research Article
Pages 368-375
Amy L. Buller, Michael M. White

[24] Expression of gap junctional proteins in Xenopus oocyte pairs Original Research Article
Pages 376-380
Lisa Ebihara

[25] Regulation of intracellular calcium activity in Xenopus oocytes Original Research Article
Pages 381-390
Yoram Oron, Nathan Dascal

[26] Stable expression of heterologous multisubunit protein complexes established by calcium phosphate- or lipid-mediated cotransfection Original Research Article
Pages 391-408
Toni Claudio

[27] Vaccinia virus as vector to express ion channel genes Original Research Article
Pages 408-423
Andreas Karschin, Barbara A. Thorne, Gary Thomas, Henry A. Lester

[28] Expression of ion channels in cultured cells using baculovirus Original Research Article
Pages 423-431
Alexander Kamb, Juan I. Korenbrot, Jan Kitajewski

[29] Probing molecular structure and structural changes of voltage-gated channel by expressing mutant channels in yeast and reconstituting them into planar membranes Original Research Article
Pages 432-444
M. Colombini, S. Peng, E. Blachly-Dyson, M. Forte

[30] Insertion of ion channels into planar lipid bilayers by vesicle fusion Original Research Article
Pages 447-463
Pedro Labarca, RamГіn Latorre

[31] Planar lipid bilayers on patch pipettes: Bilayer formation and ion channel incorporation Original Research Article
Pages 463-470
Barbara E. Ehrlich

[32] Surface charge effects on ion conduction in ion channels Original Research Article
Pages 471-501
RamГіn Latorre, Pedro Labarca, David Naranjo

[33] Determination of ion permeability by fluorescence quenching Original Research Article
Pages 501-510
Ana Maria Garcia

[34] Synthetic peptides and proteins as models for pore-forming structure of channel proteins Original Research Article
Pages 510-525
Anne Grove, Takeo Iwamoto, Myrta S. Montal, John M. Tomich, Mauricio Montal

[35] Purification and reconstitution of skeletal muscle calcium channels Original Research Article
Pages 529-546
Vincent Florio, Jörg Striessnig, William A. Catterall

[36] Purification and reconstitution of nicotinic acetylcholine receptor Original Research Article
Pages 546-555
Amitabh Chak, Arthur Karlin

[37] Purification, affinity labeling, and reconstitution of voltage-sensitive potassium channels Original Research Article
Pages 556-564
Hubert Rehm, Michel Lazdunski

[38] Affinity purification and reconstitution of calcium-activated potassium channels Original Research Article
Pages 564-573
Dan A. Klærke, Peter L. Jorgensen

[39] Assay and purification of neuronal receptors for inositol 1,4,5-trisphosphate Original Research Article
Pages 573-591
Sunil R. Hingorani, William S. Agnew

[40] Isolation of ion channel genes by expression cloning in Xenopus oocytes Original Research Article
Pages 592-604
Georges C. Frech, Rolf H. Oho

[41] Hybrid arrest technique to test for functional roles of cloned cDNAs and to identify homologies among ion channel genes Original Research Article
Pages 605-612
Ilana Lotan

[42] Cloning of ion channel gene families using the polymerase chain reaction Original Research Article
Pages 613-619
Eleazar C. Vega-Saenz de Miera, Jen-Wei Lin

[43] Overview of toxins and drugs as tools to study excitable membrane ion channels: I. Voltage-activated channels Original Research Article
Pages 620-643
Toshio Narahashi, Martin D. Herman

[44] Overview of toxins and drugs as tools to study excitable membrane ion channels: II. Transmitter-activated channels Original Research Article
Pages 643-658
Toshio Narahashi

[45] Biosynthesis of ion channels in cell-free and metabolically labeled cell systems Original Research Article
Pages 659-670
William B. Thornhill, S. Rock Levinson

[46] Patch clamp techniques to study ion channels from organelles Original Research Article
Pages 673-681
Bernhard U. Keller, Rainer Hedrich

[47] Patch clamp studies of microbial ion channels Original Research Article
Pages 681-691
Yoshiro Sam, Boris Martinac, Anne H. Delcour, Peter V. Minorsky, Michael C. Gustin, Michael R. Culbertson, Julius Adler, Ching Kung

[48] Studies on intact sacroplasmic reticulum: Patch clamp recording and tension measurement in lobster split muscle fibers Original Research Article
Pages 692-699
J.M. Tang, J. Wang, R.S. Eisenberg

[49] Planar bilayer recording of ryanodine receptors of sarcoplasmic reticulum Original Research Article
Pages 699-707
Roberto Coronado, Seiko Kawano, Cheol J. Lee, Carmen Valdivia, Hector H. Valdivia

[50] Software for acquisition and analysis of ion channel data: Choices, tasks, and strategies Original Research Article
Pages 711-728
Robert J. French, William F. Wonderlin

[51] Stationary single-channel analysis Original Research Article
Pages 729-746
Meyer B. Jackson

[52] Analysis of nonstationary single-channel currents Original Research Article
Pages 746-762
F.J. Sigworth, J. Zhou

[53] Preventing artifacts and reducing errors in single-channel analysis Original Research Article
Pages 763-791
K.L. Magleby

[54] Analysis of drug action at single-channel level Original Research Article
Pages 791-806
Edward Moczydlowski

[55] Analysis of sodium channel tail currents Original Research Article
Pages 806-816
Gabriel Cota, Clay Marmstrong

[56] Calculation of ion currents from energy profiles and energy profiles from ion currents in multibarrier, multisite, multioccupancy channel model Original Research Article
Pages 816-854
Osvaldo Alvarez, Alfredo Villarroel, George Eisenman

Author index
Pages 855-886

Subject index
Pages 887-917





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