Nitric oxide. Part G, Oxidative and nitrosative stress in redox regulation of cell signaling
معرفی کتاب «Nitric oxide. Part G, Oxidative and nitrosative stress in redox regulation of cell signaling» نوشتهٔ Enrique Cadenas and Lester Packer (Eds.)، منتشرشده توسط نشر Elsevier/Academic Press در سال 2008. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
The Nobel Prize was awarded in Physiology or Medicine in 1998 to Louis J. Ignarro, Robert F. Furchgott and Ferid Murad for demonstrating the signaling properties of nitric oxide. Nitric Oxide (NO) is one of the few gaseous signaling molecules and is a key biological messenger that plays a role in many biological processes. NO research has led to new treatments for treating heart as well as lung diseases, shock and impotence. (Sildenafil, popularly known by the trade name Viagra, enhances signaling through nitric oxide pathways.) Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis.This is another "must-have" volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of nitric oxide and its synthesis will have this indispensable volume on their shelves. \*Essential resource for every laboratory involved in NO-related work\*Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over. \* Aids researchers in the design of medically important therapies for heart disease and cancer Content: Contributors to Volume 441 Pages xiii-xxi Volumes in Series Pages xxiii-xlviii Chapter 1 Protein 3-Nitrotyrosine in Complex Biological Samples: Quantification by High-Pressure Liquid Chromatography/Electrochemical Detection and Emergence of Proteomic Approaches for Unbiased Identification of Modification Sites Review Article Pages 1-17 Tal Nuriel, Ruba S. Deeb, David P. Hajjar, Steven S. Gross Chapter 2 Selective Fluorogenic Derivatization of 3‐Nitrotyrosine and 3,4‐Dihydroxyphenylalanine in Peptides: A Method Designed for Quantitative Proteomic Analysis Review Article Pages 19-32 Victor S. Sharov, Elena S. Dremina, Justin Pennington, Jacque Killmer, Christopher Asmus, Maria Thorson, Sung Jung Hong, Xiaobao Li, John F. Stobaugh, Christian SchГ¶neich Chapter 3 Nitroalkenes: Synthesis, Characterization, and Effects on Macrophage Activation Review Article Pages 33-51 Ana MarГa Ferreira, AndrГ©s Trostchansky, Mariana Ferrari, JosГ© M. Souza, Homero Rubbo In‐Gel Detection of S ‐Nitrosated Proteins Using Fluorescence Methods Review Article Pages 53-71 Nicholas J. Kettenhofen, Xunde Wang, Mark T. Gladwin, Neil Hogg Chapter 5 The Arachidonate‐Dependent Survival Signaling Preventing Toxicity in Monocytes/Macrophages Exposed to Peroxynitrite Review Article Pages 73-82 Orazio Cantoni, Ilaria Tommasini, Liana Cerioni Chapter 6 Practical Approaches to Investigate Redox Regulation of Heat Shock Protein Expression and Intracellular Glutathione Redox State Review Article Pages 83-110 Vittorio Calabrese, Anna Signorile, Carolin Cornelius, Cesare Mancuso, Giovanni Scapagnini, Bernardo Ventimiglia, Nicolo' Ragusa, Albena Dinkova‐Kostova Chapter 7 Monitoring Oxidative Stress in Vascular Endothelial Cells in Response to Fluid Shear Stress: From Biochemical Analyses to Micro‐ and Nanotechnologies Review Article Pages 111-150 Mahsa Rouhanizadeh, Wakako Takabe, Lisong Ai, Hongyu Yu, Tzung Hsiai Chapter 8 Determination of S ‐Nitrosothiols in Biological and Clinical Samples Using Electron Paramagnetic Resonance Spectrometry with Spin Trapping Review Article Pages 151-160 Paul G. Winyard, Iona A. Knight, Frances L. Shaw, Sophie A. Rocks, Claire A. Davies, Paul Eggleton, Richard Haigh, Matthew Whiteman, Nigel Benjamin Chapter 9 Novel Method for Measuring S ‐Nitrosothiols Using Hydrogen Sulfide Review Article Pages 161-172 Xinjun Teng, T. Scott Isbell, Jack H. Crawford, Charles A. Bosworth, Gregory I. Giles, Jeffrey R. Koenitzer, Jack R. Lancaster, Jeannette E. Doeller, David W. Kraus, Rakesh P. Patel Chapter 10 Kinetic Studies on Peroxynitrite Reduction by Peroxiredoxins Review Article Pages 173-196 Madia Trujillo, Gerardo Ferrer‐Sueta, Rafael Radi Nitrocytochrome c : Synthesis, Purification, and Functional Studies Review Article Pages 197-215 JosГ© M. Souza, Laura Castro, Adriana MarГa Cassina, Carlos BatthyГЎny, Rafael Radi Chapter 12 Tyrosine Nitration, Dimerization, and Hydroxylation by Peroxynitrite in Membranes as Studied by the Hydrophobic Probe N ‐ t ‐BOC‐ l ‐tyrosine tert ‐Butyl Ester Review Article Pages 217-236 Silvina Bartesaghi, Gonzalo Peluffo, Hao Zhang, Joy Joseph, Balaraman Kalyanaraman, Rafael Radi Chapter 13 Assessment of Superoxide Production and NADPH Oxidase Activity by HPLC Analysis of Dihydroethidium Oxidation Products Review Article Pages 237-260 Francisco R.M. Laurindo, Denise C. Fernandes, CГ©lio X.C. Santos Chapter 14 Methods to Measure the Reactivity of Peroxynitrite‐Derived Oxidants Toward Reduced Fluoresceins and Rhodamines Review Article Pages 261-282 Peter Wardman Chapter 15 Detection and Characterization of Peroxynitrite‐Induced Modifications of Tyrosine, Tryptophan, and Methionine Residues by Tandem Mass Spectrometry Review Article Pages 283-294 Igor Rebrin, Catherine Bregere, Timothy K. Gallaher, Rajindar S. Sohal Chapter 16 Reductive Gas‐Phase Chemiluminescence and Flow Injection Analysis for Measurement of the Nitric Oxide Pool in Biological Matrices Review Article Pages 295-315 Ulrike Hendgen‐Cotta, Marijke Grau, Tienush Rassaf, Putrika Gharini, Malte Kelm, Petra Kleinbongard Chapter 17 Detection and Measurement for the Modification and Inactivation of Caspase by Nitrosative Stress In Vitro and In Vivo Review Article Pages 317-327 Hee‐Jun Na, Hun‐Taeg Chung, Kwon‐Soo Ha, Hansoo Lee, Young‐Guen Kwon, Timothy R. Billiar, Young‐Myeong Kim Chapter 18 Interactive Relations between Nitric Oxide (NO) and Carbon Monoxide (CO): Heme Oxygenase‐1/CO Pathway Is a Key Modulator in NO‐Mediated Antiapoptosis and Anti‐inflammation Review Article Pages 329-338 Hun‐Taeg Chung, Byung‐Min Choi, Young‐Guen Kwon, Young‐Myeong Kim Chapter 19 Detection and Characterization of In Vivo Nitration and Oxidation of Tryptophan Residues in Proteins Review Article Pages 339-349 Catherine Bregere, Igor Rebrin, Rajindar S. Sohal Chapter 20 In Vivo Real‐Time Measurement of Nitric Oxide in Anesthetized Rat Brain Review Article Pages 351-367 Rui M. Barbosa, CГЎtia F. LourenГ§o, Ricardo M. Santos, Francois Pomerleau, Peter Huettl, Greg A. Gerhardt, JoГЈo Laranjinha Chapter 21 Nitric Oxide and Cardiobiology‐Methods for Intact Hearts and Isolated Myocytes Review Article Pages 369-392 Joshua M. Hare, Farideh Beigi, Konstantinos Tziomalos Chapter 22 Microscopic Technique for the Detection of Nitric Oxide‐Dependent Angiogenesis in an Animal Model Review Article Pages 393-402 Seung Namkoong, Byoung‐Hee Chung, Kwon‐Soo Ha, Hansoo Lee, Young‐Guen Kwon, Young‐Myeong Kim Author Index Pages 403-427 Subject Index Pages 429-436 The Nobel Prize was awarded in Physiology or Medicine in 1998 to Louis J. Ignarro, Robert F. Furchgott and Ferid Murad for demonstrating the signaling properties of nitric oxide. Nitric oxide (NO) is one of the few gaseous signaling molecules and is a key biological messenger that plays a role in many biological processes. NO research has led to new treatments for treating heart as well as lung diseases, shock and impotence. (Sildenafil, popularly known by the trade name Viagra, enhances signaling through NO pathways.) Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis.
This is another “must-have volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of NO and its synthesis will have this indispensable volume on their shelves.
*Essential resource for every laboratory involved in NO-related work
*Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over.
* Aids researchers in the design of medically important therapies for heart disease and cancer The Nobel Prize was awarded in Physiology or Medicine in 1998 to Louis J. Ignarro, Robert F. Furchgott and Ferid Murad for demonstrating the signaling properties of nitric oxide. Nitric Oxide (NO) is one of the few gaseous signaling molecules and is a key biological messenger that plays a role in many biological processes. NO research has led to new treatments for treating heart as well as lung diseases, shock and impotence. (Sildenafil, popularly known by the trade name Viagra, enhances signaling through nitric oxide pathways.) Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis. This is another "must-have" volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of nitric oxide and its synthesis will have this indispensable volume on their shelves. *Essential resource for every laboratory involved in NO-related work *Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over. * Aids researchers in the design of medically important therapies for heart disease and cancer The discovery that nitrogen monoxide or nitric oxide (NO) is a biologically produced free radical has revolutionized our thinking about physiological and pathological processes. These processes have important pharmacologic implications for health and disease
دانلود کتاب Nitric oxide. Part G, Oxidative and nitrosative stress in redox regulation of cell signaling
This is another “must-have volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of NO and its synthesis will have this indispensable volume on their shelves.
*Essential resource for every laboratory involved in NO-related work
*Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over.
* Aids researchers in the design of medically important therapies for heart disease and cancer The Nobel Prize was awarded in Physiology or Medicine in 1998 to Louis J. Ignarro, Robert F. Furchgott and Ferid Murad for demonstrating the signaling properties of nitric oxide. Nitric Oxide (NO) is one of the few gaseous signaling molecules and is a key biological messenger that plays a role in many biological processes. NO research has led to new treatments for treating heart as well as lung diseases, shock and impotence. (Sildenafil, popularly known by the trade name Viagra, enhances signaling through nitric oxide pathways.) Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis. This is another "must-have" volume packed with robust methods from authors around the globe. Researchers interested in the detailed biochemistry of nitric oxide and its synthesis will have this indispensable volume on their shelves. *Essential resource for every laboratory involved in NO-related work *Gathers tried and tested techniques from global labs which eliminates searching through many different sources and avoids pitfalls so the same mistakes are not made over and over. * Aids researchers in the design of medically important therapies for heart disease and cancer The discovery that nitrogen monoxide or nitric oxide (NO) is a biologically produced free radical has revolutionized our thinking about physiological and pathological processes. These processes have important pharmacologic implications for health and disease