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200 10$aHierarchical Archimedean Copulas /$fby Jan Górecki, Ostap Okhrin
205   $a1st ed. 2024.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2024.
215   $a1 online resource (128 pages)
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327   $aPreface -- 1 Copulas -- 2 Archimedean Copulas -- 3 Construction -- 4 Properties -- 5 Sampling -- 6 Estimation -- 7 Temporal Models and their Applications -- 8 Software.
330   $aThis book offers a thorough understanding of Hierarchical Archimedean Copulas (HACs) and their practical applications. It covers the basics of copulas, explores the Archimedean family, and delves into the specifics of HACs, including their fundamental properties. The text also addresses sampling algorithms, HAC parameter estimation, and structure, and highlights temporal models with applications in finance and economics. The final chapter introduces R, MATLAB, and Octave toolboxes for copula modeling, enabling students, researchers, data scientists, and practitioners to model complex dependence structures and make well-informed decisions across various domains.
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200 10$aGlutathione and sulfur amino acids in human health and disease /$fRoberta Masella and Giuseppe Mazza
205   $a1st ed.
210   $aHoboken $cWiley$dc2009
215   $a1 online resource (626 p.)
300   $aDescription based upon print version of record.
311 08$a9780470170854 
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327   $aGLUTATHIONE AND SULFUR AMINO ACIDS IN HUMAN HEALTH AND DISEASE; CONTENTS; PREFACE; CONTRIBUTORS; I INTRODUCTION; 1 GLUTATHIONE AND THE SULFUR-CONTAINING AMINO ACIDS: AN OVERVIEW; 1.1 Introduction; 1.2 Why Sulfur-Containing Amino Acids?; 1.3 S-Adenosylmethionine, Nature's Wonder Cofactor; 1.4 Glutathione; 1.5 Taurine-the Second Essential Sulfur-Containing Amino Acid?; 1.6 Conclusions; Acknowledgments; References; II CHEMISTRY AND METABOLISM OF GSH AND SULFUR AMINO ACIDS; 2 SULFUR AMINO ACIDS CONTENTS OF DIETARY PROTEINS: DAILY INTAKE AND REQUIREMENTS; 2.1 Introduction
327   $a2.2 Sulfur Amino Acids (SAA) Content of Dietary Protein2.3 Sulfur Amino Acid Intake; 2.4 Nutritional Requirement for Total Sulfur Amino Acids; 2.5 Conclusions; References; 3 CELLULAR COMPARTMENTALIZATION OF GLUTATHIONE; 3.1 Introduction; 3.2 Glutathione Content in Cells; References; 4 INTESTINAL METABOLISM OF SULFUR AMINO ACIDS; 4.1 Introduction; 4.2 Isotopic Approaches to Study Metabolism; 4.3 Evidence of Gut Sulfur Amino Acid Metabolism; 4.4 Other Key Players in Intestinal Sulfur Amino Acid Metabolism; 4.5 Cysteine in Redox Function and Oxidant Stress in the Gut
327   $a4.6 Pathophysiology of Sulfur Amino Acid Metabolism in the GIT4.7 Conclusions; References; 5 HEPATIC SULFUR AMINO ACID METABOLISM; 5.1 Introduction; 5.2 Dietary Relation between Methionine and Cysteine; 5.3 Metabolic Relation between Hepatic Sulfur Amino Acids, B Vitamins, and Methyl Group Metabolism; 5.4 Regulation of Sulfur Amino Acid Metabolism and Related Metabolic Pathways in the Liver; 5.5 Impact of Physiologic and Nutritional Factors on Sulfur Amino Acid Metabolism; 5.6 Conclusions; References; III ANTIOXIDANT AND DETOXIFICATION ACTIVITIES
327   $a6 GLUTATHIONE AND SULFUR CONTAINING AMINO ACIDS: ANTIOXIDANT AND CONJUGATION ACTIVITIES6.1 Introduction; 6.2 Reactive Oxygen Species and Antioxidants; 6.3 Glutathione Redox Cycle; 6.4 Regulation of GSH and Cysteine Levels; 6.5 Biotransformation; 6.6 ROS-Mediated Cellular Signaling; 6.7 Transcription Regulation of Antioxidant and Conjugation Enzymes; 6.8 Oxidative Stress and Diseases; References; 7 GLUTAREDOXIN AND THIOREDOXIN ENZYME SYSTEMS: CATALYTIC MECHANISMS AND PHYSIOLOGICAL FUNCTIONS; 7.1 Introduction; 7.2 General Characteristics of Glutaredoxins
327   $a7.3 General Characteristics of Thioredoxins7.4 Glutaredoxin Mechanism of Action; 7.5 Thioredoxin Mechanism of Action; 7.6 Control of Grx Expression; 7.7 Control of Trx Expression in Mammalian Systems; 7.8 Cellular Functions of Grx; 7.9 Cellular Functions of Trx; 7.10 Reversible Sulfhydryl Oxidation and Disease; 7.11 Conclusions; References; 8 METHIONINE SULFOXIDE REDUCTASES: A PROTECTIVE SYSTEM AGAINST OXIDATIVE DAMAGE; 8.1 Introduction; 8.2 History of the Msr System; 8.3 MsrA and MsrB Protein Structure and Mechanism of Action; 8.4 Msr Reducing Requirement; 8.5 Other Members of the Msr Family
327   $a8.6 The Msr System: Both a Repair Enzyme and a Scavenger of ROS
330   $aThe complex roles of glutathione and sulfur amino acids in human health Glutathione (?-L-glutamyl-L-cysteinylglycine, GSH) is a major antioxidant acting as a free radical scavenger that protects the cell from reactive oxygen species (ROS). Sulfur amino acids (SAAs), such as methionine and cysteine, play a critical role in the maintenance of health. GSH depletion as well as alterations of SAA metabolism are linked to a host of disease states including liver cirrhosis, various pulmonary diseases, myocardial ischemia and reperfusion injury, aging, Parkinson's disease, Alzheimer's disease
606   $aGlutathione$xPsychological aspects
606   $aSulfur amino acids$xPsychological aspects
606   $aGlutathione$xTherapeutic use
606   $aSulfur amino acids$xTherapeutic use
606   $aGlutathione$xMetabolism
606   $aSulfur amino acids$xMetabolism
615  0$aGlutathione$xPsychological aspects.
615  0$aSulfur amino acids$xPsychological aspects.
615  0$aGlutathione$xTherapeutic use.
615  0$aSulfur amino acids$xTherapeutic use.
615  0$aGlutathione$xMetabolism.
615  0$aSulfur amino acids$xMetabolism.
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