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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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200 00$aMolecular basis of oxidative stress$b[electronic resource] $echemistry, mechanisms, and disease pathogenesis /$fedited by Frederick A. Villamena
210   $aHoboken, N.J. $cWiley$dc2013
215   $a1 online resource (448 p.)
300   $aDescription based upon print version of record.
311   $a0-470-57218-3 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCover; Title page; Copyright page; Contents; Preface; About the Contributors; Contributors; 1: Chemistry of Reactive Species; 1.1 Redox Chemistry; 1.2 Classification of Reactive Species; 1.2.1 Type of Orbitals; 1.2.2 Stability of Radicals; 1.2.3 ROS; 1.2.4 Reactive Nitrogen Species; 1.2.5 Reactive Sulfur and Chlorine Species; 1.3 Reactivity; 1.3.1 Thermodynamic Considerations; 1.3.2 Kinetic Considerations; 1.4 Origins of Reactive Species; 1.4.1 Biological Sources; 1.4.2 Nonbiochemical Sources; 1.5 Methods of Detection; 1.5.1 In Vitro; 1.5.2 In Vivo; References
327   $a2: Lipid Peroxidation and NitrationOverview; 2.1 Peroxidation of PUFAs; 2.1.1 Hydroperoxy Fatty Acid Isomers (HpETEs and HpODEs); 2.1.2 Hydroxy Fatty Acids (HETEs and HODEs); 2.1.3 Isoleukotrienes; 2.1.4 Epoxy Alcohols; 2.2 Cyclic Endoperoxides and Their Products; 2.2.1 Isoprostanes; 2.2.2 Diepoxide Pathway Products; 2.2.3 Serial Cyclic Endoperoxides; 2.3 Fragmented Products of Lipid Peroxidation; 2.3.1 Short-Chain Alkanes, Aldehydes, and Acids; 2.3.2 Oxidatively Fragmented Phospholipids; 2.3.3 PAF Acetylhydrolase; 2.3.4 Hydroxyalkenals; 2.3.5 Malondialdehyde; 2.3.6 Acrolein
327   $a2.4 Epoxy Fatty Acids2.5 Lipid Nitrosylation; 2.5.1 Formation of Reactive Nitrogen Species; 2.5.2 Lipid Nitration Reactions; 2.5.3 Detection of Lipid Nitration In Vivo; 2.5.4 Bioactivities of Nitrated Lipids; Summary; References; 3: Protein Posttranslational Modification; Overview; 3.1 Oxidative Stress-Related PTMs: Oxidation Reactions; 3.1.1 Cysteine; 3.1.2 Methionine; 3.1.3 Oxidation of Aromatic Amino Acids; 3.1.4 Oxidation of Aliphatic Amino Acids; 3.2 Amino Acid Modification by Oxidation-Produced Electrophiles; 3.2.1 Electrophiles Formed by Oxidative Stress
327   $a4.3.3 Novel Types of Ribose and Guanine Oxidative Lesions and Future OutlookFuture Outlook of DNA Oxidative Lesions; References; 5: Downregulation of Antioxidants and Phase 2 Proteins; Overview; 5.1 Definitions of Antioxidants and Phase 2 Proteins; 5.1.1 Antioxidants; 5.1.2 Phase 2 Proteins; 5.2 Roles in Oxidative Stress; 5.2.1 Superoxide Dismutase; 5.2.2 Catalase; 5.2.3 GSH and GSH-Related Enzymes; 5.2.4 NAD(P)H:Quinone Oxidoreductase; 5.2.5 Heme Oxygenase; 5.2.6 Ferritin; 5.2.7 UDP-Glucuronosyltransferase; 5.3 Molecular Regulation; 5.3.1 General Consideration; 5.3.2 Nrf2 Signaling
327   $a5.3.3 Other Regulators
330   $a Sets the stage for the development of better diagnostic techniques and therapeutics  Featuring contributions from an international team of leading clinicians and biomedical researchers, Molecular Basis of Oxidative Stress reviews the molecular and chemical bases of oxidative stress, describing how oxidative stress can lead to the development of cancer and cardiovascular and neurodegenerative diseases. Moreover, it explains the potential role of free radicals in both the diagnosis and the development of therapeutics to treat disease. Molecular Basis of Oxidative Stres
606   $aOxidative stress
606   $aOxidation
615  0$aOxidative stress.
615  0$aOxidation.
676   $a571.9/453
701   $aVillamena$b Frederick A$0886084
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910139054303321
996   $aMolecular basis of oxidative stress$91978681
997   $aUNINA