Human Biochemistry, Second Edition provides a comprehensive, pragmatic introduction to biochemistry as it relates to human development and disease. Here, Gerald Litwack, award-wining researcher and longtime teacher, discusses the biochemical aspects of organ systems and tissue, cells, proteins, enzymes, insulins and sugars, lipids, nucleic acids, amino acids, polypeptides, steroids, and vitamins and nutrition, among other topics. Fully updated to address recent advances, the new edition features fresh discussions on hypothalamic releasing hormones, DNA editing with CRISPR, new functions of cellular prions, plant-based diet and nutrition, and much more. Grounded in problem-driven learning, this new edition features clinical case studies, applications, chapter summaries, and review-based questions that translate basic biochemistry into clinical practice, thus empowering active clinicians, students and researchers. Presents an update on a past edition winner of the 2018 Most Promising New Textbook (College) Award (Texty) from the Textbook and Academic Authors Association and the PROSE Award of the Association of American Publishers Provides a fully updated resource on current research in human and medical biochemistry Includes clinical case studies, applications, chapter summaries and review-based questions Adopts a practice-based approach, reflecting the needs of both researchers and clinically oriented readers
Hormones, Fourth Edition provides a report on the field of human hormones viewed in light of our current understanding of cellular and subcellular architecture, along with the molecular details of their modes of action. Comprehensive information about hormone action on canonical and non-canonical signaling pathways at cellular and subcellular level and effects on architecture and function of organ systems are discussed. All chapters in this new edition have been completely updated to cover advances in endocrinology research, which has expanded significantly in the last few years. Vast coverage of hormones not previously covered and newly discovered aspects of hormone action are also included. This new fourth edition is intended to be used by advanced undergraduates and graduate students in the biological sciences. It will also provide useful background information for health professionals, clinicians and researchers in the field of endocrinology, metabolism and biochemistry. Includes updates on all chapters Covers sleep hormones, growth factors, intestinal hormones, calcium-sensing receptor of parathyroid, and others Provides essential basics for advanced undergraduates, graduate students and researchers in the biological sciences, as well as clinical aspects and applications for clinicians Presented in separate hormone systems, covering the subcellular mode of action of selected hormones and a detailed understanding of their human anatomy and physiology
Hormones provides a comprehensive treatment of human hormones viewed in the light of modern theories of hormone action and in the context of current understanding of subcellular and cellular architecture and classical organ physiology. The book begins with discussions of the first principles of hormone action and the seven classes of steroid hormones and their chemistry, biosynthesis, and metabolism. These are followed by separate chapters that address either a classical endocrine system, e.g., hypothalamic hormones, posterior pituitary hormones, anterior pituitary hormones, ,thyroid hormones, pancreatic hormones, gastrointestinal hormones, calcium regulating hormones, adrenal corticoids, hormones of the adrenal medulla, androgens, estrogens and progestins, and pregnancy and lactation hormones; or newer domains of hormone action which are essential to a comprehensive understanding of hormone action, including prostaglandins, thymus hormones, and pineal hormones. The book concludes with a presentation of hormones of the future, i.e., cell growth factors. This book is intended for use by first-year medical students, graduate students, and advanced undergraduates in the biological sciences. It is also hoped that this book will fill the void that exists for resource materials for teaching cellular and molecular endocrinology and that it will be employed as an equal partner with most standard biochemistry textbooks to provide a comprehensive and balanced coverage of this realm of biology.
Biochemical Actions of Hormones, Volume XII is a compendium of papers discussing aspects of molecular biology with regard to hormone action and to certain hormone receptors. One paper discusses the different approaches and strategies that are used in determining the amino acid sequence. The paper also describes the structural organization of polyprotein precursors such as the peptide chemistry approach or the nucleic acid approach. Another paper investigates the regulation of prolactin biosynthesis by peptide hormones as a model for peptidergic regulation of gene expression. The paper defines in detail which components of the biosynthetic machinery are being regulated by the polypeptide hormones. One paper also analyzes the molecular biology of the metallothioneins, focusing on the glucocorticoid regulation of metallothioneins genes. Experiments show that when the mouse MT-I gene is activated in lymphoid cells, or transferred to other cells, it still retains information needed in metal-regulated expression, though glucocorticoids can no longer regulate the same gene. Other papers discuss the purification and properties of the nerve growth factor receptor, and the thyrotropin receptor. Micro-biologists, biochemists, molecular biologists, cellular biologists, endocrinologists, and scientists involved in cell research will find this collection valuable.
Biochemical Actions of Hormones, Volume XIII is a 13-chapter text that explores the biochemical aspects of polypeptide, steroid, and insect hormones. The opening chapters examine the control of glucose transport by insulin, the participation of nuclear poly(adenosine diphosphate-ribosyl)ation in hormonal mechanisms, and the concept of ovulation control. These topics are followed by discussions on the immunohistochemistry of human chorionic gonadotropin; the adrenocorticotropic hormone (ACTH) action on adrenal cholesterol metabolism and its interaction with adrenal receptors; the structure-activity relationships of neurohypophyseal hormones; and the interactions between different functional sites in the epidermal growth factor receptor. A chapter focuses on the juvenile hormone-binding proteins. The remaining chapters consider the actions of steroid hormones. These chapters specifically describe the androgen receptor, the interaction of the glucocorticoid receptors with specific DNA sequences, and glucocorticoid actions on fibroblasts. A discussion on the potential role of RNA in the glucocorticoid receptor mechanism is also included in these chapters. This book will be of great benefit to endocrinologists, biochemists, biologists, and researchers who are interested in hormonal action and regulation.
This textbook is specifically designed for upper-division undergraduate or graduate students in life science or pre-medical majors including dentistry or pharmacology, who are required to take a biochemistry or medical biochemistry course, but who are not necessarily biochemistry majors. The book adopts a unique approach to the topic compared with other biochemistry textbooks currently available, in that each biochemical subject is introduced by a human disease relating the biochemical principles to be developed in that chapter. The goal is to make biochemistry more meaningful to the student who is not normally shown the connection between biochemistry and medicine. Includes an abundance of figures Emphasizes human biochemistry Introduces each chapter with a relevant disease or clinical relationship
First published in 1943, Vitamins and Hormones is the longest-running serial published by Academic Press. The Editorial Board now reflects expertise in the field of hormone action, vitamin action, X-ray crystal structure, physiology, and enzyme mechanisms. Under the capable and qualified editorial leadership of Dr. Gerald Litwack, Vitamins and Hormones continues to publish cutting-edge reviews of interest to endocrinologists, biochemists, nutritionists, pharmacologists, cell biologists, and molecular biologists. Others interested in the structure and function of biologica.
Biochemical Actions of Hormones, Volume XI is a 12-chapter text that covers the general and specific biochemical aspects of polypeptide and steroid hormones. The introductory chapters deal with the biochemical actions of the leukotrienes, the cyclic adenosine monophosphate, and the gonadotropin releasing hormone. The next chapters highlight detailed contributions on polypeptide hormone research. These chapters specifically tackle the insulin actions and the role of insulin in mammary gland development. The last series of chapters on steroid hormones includes X-ray crystallographic analysis of steroid structures and the significance of these studies on steroid-receptor interactions. These chapters also explore the analysis of the estrogen receptor with monoclonal antibodies; the role of estrogen receptor in responsive mammalian cells; the use of peroxidase as a marker of catechol estrogen action; and the activation and stabilization of the glucocorticoid receptor. This volume will be of great benefit to biochemists, biologists, endocrinologists, and researchers who are interested in the hormonal action and regulation.
Biochemical Actions of Hormones, Volume III is a collection of papers that deals with steroid hormone action, hypothalamic-regulating hormones, plasma membrane receptors, thyroid hormones, hormones acting on the synthesis of proteins in liver perfusion systems, as well as on approaches using genetics and cell culture. One paper explains why cell hybridization can be a useful technique in studying both genetic control of differentiated functions and of hormonal induction. Another paper discusses the general approaches in the study of ligand-membrane interactions, and cites experiments dealing with polypeptide hormones and catecholamines. It explains in detail the physiochemical interaction between a radioactively labeled ligand and the plasma membrane, either as found in an intact cell or in an isolated membrane preparation. One paper discusses the introduction and time course of estrogen-stimulated biosynthetic events in the uterus. It analyzes the relationship of the estrogen-binding protein to the biological responses of the uterus, including the "domino" versus "sustained output" model of estrogen action. One paper explains, by using a chick oviduct, how to investigate the hypothesis that hormones can activate genes to allow transcription of new species of messenger RNA. This collection can prove beneficial to biochemists, molecular biologists, cellular biologists, micro-biologists, developmental biologists, and scientists involved in cell research.
Biochemical Actions of Hormones, Volume VI is a 10-chapter text that summarizes the regulation of protein kinases and phosphoprotein phosphatases and the relationship of the endocrines to cancer. This volume describes first the precise structures of steroid hormones and carcinogens. The subsequent chapters cover the hormonal regulation of chemical carcinogenesis; the importance of steroid hormones as growth factors for mammary tumors; the effects of steroid hormones in the central nervous system; and the properties of the purified estrogen receptor. A chapter highlights the biochemical actions of neurohypophysial hormones and neurophysin. Another chapter presents the biochemistry and physiology of cytokinin, a plant hormone. The final chapter exemplifies the multihormonal systems by control of the a2u-globulin produced in the liver. This book will be of great value to endocrinologists.
Biochemical Actions of Hormones, Volume VII is a nine-chapter text that covers a broad range of subjects representing research efforts on hormone action. This book deals first with the developments on hormones of the thymus and the evidence on the regulation of liver steroid and drug metabolism by the hypothalamus and anterior pituitary. These topics are followed by discussions on the regulation by neurotransmitters in the hypothalamus of LHRH and somatostatin; the hormonal regulation of protein degradation in liver and in isolated cells; and the hormonal regulation of lipid mobilization from adipose tissue. Considerable chapters are devoted to steroid hormone mechanisms and the cell genetics of glucocorticoid responsiveness. The remaining chapters explore the mero-receptor and androgenic regulation in male accessory tissue. These chapters also highlight the molecular biological aspects of thyroid hormone action. This volume is an ideal source for biologists, biochemists, and researchers working in the subject and in related fields.
Biochemical Actions of Hormones, Volume V explores the nature of interaction of multiple hormones in regulating specific phenotypes. This volume is organized into 11 chapters that include discussions on the developments in the understanding of the biochemistry and molecular biology of hormones. The opening chapters deal with the modifications of chromatin structure by hormones, the regulation of exocytosis, ontogeny of estrogen receptors, and the hormonal regulation of cells of the seminiferous tubule. The discussions then shift to the advances on the progesterone receptor, the role of glucocorticoids in the integration of mammary tumor virus genes, and a model system for estrogen action. Other chapters examine the physiology, molecular action, and biological effects of somatomedins, epidermal growth factors and 1,25-dihydroxyvitamin. The remaining chapters focus on multihormone control of mRNA for a specific hepatic protein. This book is of great value to endocrinologists.
Biochemical Actions of Hormones, Volume VIII is an eight-chapter text that covers the developments in the understanding of the biochemical aspects of hormonal action and regulation. This volume examines first the messenger functions of calcium in hormonal systems. The next chapters deal with the neuronal regulation of blood pressure; the regulation of protein synthesis by phosphorylation; and the hormonal control of hepatic gluconeogenesis. These topics are followed by discussions on the effects of insulin in intracellular functions, the mechanisms of steroidal hormones, and the membrane recognition and effector sites in steroid hormone action. A chapter focuses on the activation of steroid-receptor complexes. The final chapters survey the estradiol and progesterone receptors in the human endometrium. This book will be of great value to biologists, biochemists, and researchers in the field of hormonal action.
Biochemical Actions of Hormones, Volume X explores the important fields of recombinant DNA technology and nuclear matrix and their impact on biochemical endocrinology. This volume is organized into 12 chapters and begins with a presentation of an excellent model for determining the role of various receptors operating at the genetic level using cells in culture derived from the anterior pituitary. These topics are followed by a summary of conceptual advances in understanding nerve growth factor and related hormones, as well as the polypeptide hormones, which are recognized as growth factors for cells in culture. A chapter provides some insights into the pineal hormone, melatonin. The remaining chapters discuss the Ah carcinogen receptor, which seems to be analogous in many respects to a steroid receptor. These chapters also survey the various aspects of steroid receptors, including the specific acceptor sites in genes and their flanking sequences, the synthetic oligonucloetide acceptors for steroid receptor complexes, and the mechanisms of glucocorticoid resistance in leukemia. Biochemists, biologists, and research workers who are interested in biochemical aspects of endocrinology will find this book invaluable.
The newly revised and updated Hormones, Second Edition provides a comprehensive treatment of human hormones, viewed in light of modern theories of hormone action and in the context of current understanding of subcellular and cellular architecture and classical organ physiology. Each chapter presents a physiological description of the hormone system under consideration, followed by a listing of the mode-of-action of the hormone. This book includes significant advances in the molecular biology of receptors, hormones, and studies of hormone action that have transpired over the past five years. The text updates the material on enzymes related to steroid metabolism and new hormone systems, as well as providing a new chapter on hormones and cancer. Key Features * Completely updates the material, covering new discoveries and significant advances since the First Edition was published in 1987 * Contains new information regarding steroid hormones, the role of hormones in cancer, and a comprehensive introductory chapter * Presents an overview of virtually all important hormones * Provides detailed physiological, cellular, and molecular descriptions of classical human endocrine systems * Streamlines the presentation of the First Edition, making the book easier to use and read
Hormones provides a comprehensive treatment of human hormones viewed in the light of modern theories of hormone action and in the context of current understanding of subcellular and cellular architecture and classical organ physiology. The book begins with discussions of the first principles of hormone action and the seven classes of steroid hormones and their chemistry, biosynthesis, and metabolism. These are followed by separate chapters that address either a classical endocrine system, e.g., hypothalamic hormones, posterior pituitary hormones, anterior pituitary hormones, ,thyroid hormones, pancreatic hormones, gastrointestinal hormones, calcium regulating hormones, adrenal corticoids, hormones of the adrenal medulla, androgens, estrogens and progestins, and pregnancy and lactation hormones; or newer domains of hormone action which are essential to a comprehensive understanding of hormone action, including prostaglandins, thymus hormones, and pineal hormones. The book concludes with a presentation of hormones of the future, i.e., cell growth factors. This book is intended for use by first-year medical students, graduate students, and advanced undergraduates in the biological sciences. It is also hoped that this book will fill the void that exists for resource materials for teaching cellular and molecular endocrinology and that it will be employed as an equal partner with most standard biochemistry textbooks to provide a comprehensive and balanced coverage of this realm of biology.
The purpose of these volumes is to provide a reference work for the methods of purifying many of the receptors we know about. This be comes increasingly important as full-length receptors are overexpressed in bacteria or in insect cell systems. A major problem for abundantly expressed proteins will be their purification. In addition to purification protocols, many other details can be found concerning an individual receptor that may not be available in standard texts or monographs. No book of this type is available as a compendium of purification procedures. Receptor Purification provides protocols for the purification of a wide variety of receptors. These include receptors that bind: neurotransmit ters, polypeptide hormones, steroid hormones, and ligands for related members of the steroid supergene family and others, including receptors involved in bacterial motion. The text of this information is substantial, so as to require its publication in two volumes. Consequently, a division was made by grouping receptors by the nature of their ligands. Thus, in Volume One there are contributions on serotonin receptors, adrenergic receptors, the purification of GTP-binding proteins, opioid receptors, neurotensin receptor, luteinizing hormone receptor, human chorionic gonadotropin receptor, follicle stimulating hormone receptor, thyro tropin receptor, prolactin receptor, epidermal growth factor receptor, platelet derived growth factor receptor, colony stimulating factor recep tor, insulin-like growth factor receptors, insulin receptor, fibronectin receptor, interferon receptor, and the cholecystokinin receptor.
Hormones, Fourth Edition provides a report on the field of human hormones viewed in light of our current understanding of cellular and subcellular architecture, along with the molecular details of their modes of action. Comprehensive information about hormone action on canonical and non-canonical signaling pathways at cellular and subcellular level and effects on architecture and function of organ systems are discussed. All chapters in this new edition have been completely updated to cover advances in endocrinology research, which has expanded significantly in the last few years. Vast coverage of hormones not previously covered and newly discovered aspects of hormone action are also included. This new fourth edition is intended to be used by advanced undergraduates and graduate students in the biological sciences. It will also provide useful background information for health professionals, clinicians and researchers in the field of endocrinology, metabolism and biochemistry. Includes updates on all chapters Covers sleep hormones, growth factors, intestinal hormones, calcium-sensing receptor of parathyroid, and others Provides essential basics for advanced undergraduates, graduate students and researchers in the biological sciences, as well as clinical aspects and applications for clinicians Presented in separate hormone systems, covering the subcellular mode of action of selected hormones and a detailed understanding of their human anatomy and physiology
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