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Cardiac Energy Metabolism in Health and Disease
The unique biology of cardiac fibroblasts and related cells, such as cardiac myofibroblasts and valvular interstitial cells, distinguish them from other fibroblastic cells, a concept that is only beginning to be widely appreciated.
The main objective of Cardiac Remodeling: Molecular Mechanisms is to summarize the major research advances in molecular, biochemical and translational aspects of cardiac remodeling over the last 2 to 3 decades under one cover and touch on future directions.
Leading authorities on the biochemistry of this complex physiological process explain its critical role in human growth and development as well as the pathogenesis of cancer, heart disease, and other morbidities. The book fully updates the current literature.
This book intends to bring together, a panel of renowned experts in the field of vascular biology and diabetology, to integrate the current understanding of the pathogenesis and pathophysiology of vascular diseases in diabetes mellitus.
Overall, this book discusses the diverse mechanisms of phospholipase mediated signal transduction in different pathophysiological conditions and raises the possibility of specific forms of phospholipases serving as novel targets for drug development.
Protein kinase CK2 (formerly casein kinase II or 2) is known to play a critical role in the control of cell growth and cell death and is thus intimately involved in the development of cancer.
In view of rapidly growing research in the deregulation of proteases and their impact in human health and diseases, this book will highlight existing and emerging research in this exciting area.
It is now well known that proteases are found everywhere, in viruses and bacteria as well as in all human, animal and plant cells, and play a role in a variety of biological functions ranging from digestion, fertilization, development to senescence and death.
The strongest point of this book titled ¿Biochemistry of Oxidative Stress: Physiopathology and Clinical Aspects¿, is that the academic and scientific background of the authors/editors guarantee the authorship of a book comprising all aspects of oxidative stress, ranging from very molecular aspects, to clinical application, including the antioxidant therapy. Of particular importance is the fact that the aforementioned aspects are described in the book in a general section and in three different and important pathologies, such as cardiovascular diseases, neurodegenerative diseases, and cancer. The importance of these pathologies lays in the fact that, taken separately or together, they represent by far the leading cause of death in the world. Finally, all the chapters have been written by highly recognized authorities in the field of their investigations. At least to our knowledge, this is the first book with this characteristics in the field of oxidative stress.
This, Volume 3 in the Springer series Advances in Biochemistry in Health and Disease, examines the contributions of signaling systems in modulating normal cardiovascular functions and how disruption of this signaling leads to cardiovascular disorders.
Protein kinase CK2 (formerly casein kinase II or 2) is known to play a critical role in the control of cell growth and cell death and is thus intimately involved in the development of cancer.
Na+-K+ ATPase or Na-pump ATPase, a member of "P"-type ATPase superfamily, is characterized by association of multiple isoforms mainly of it's - and - subunits.
Overall, this book discusses the diverse mechanisms of phospholipase mediated signal transduction in different pathophysiological conditions and raises the possibility of specific forms of phospholipases serving as novel targets for drug development.
In view of rapidly growing research in the deregulation of proteases and their impact in human health and diseases, this book will highlight existing and emerging research in this exciting area.
This, Volume 3 in the Springer series Advances in Biochemistry in Health and Disease, examines the contributions of signaling systems in modulating normal cardiovascular functions and how disruption of this signaling leads to cardiovascular disorders.
The main objective of Cardiac Remodeling: Molecular Mechanisms is to summarize the major research advances in molecular, biochemical and translational aspects of cardiac remodeling over the last 2 to 3 decades under one cover and touch on future directions.
This book summarizes present knowledge of different mechanisms involved in the development of positive and negative consequences of cardiac adaptation.
This book covers many aspects of atherogenesis, with particular emphasis on lipid and lipoprotein metabolism. Also explored are the roles of nuclear hormone receptors on lipid and lipoprotein metabolism and their complex roles in atherogenesis.
This book summarizes present knowledge of different mechanisms involved in the development of positive and negative consequences of cardiac adaptation.
It analyses how mitochondria affect metabolic pathways, how they are active in the regulation of cytosolic constituents, and their role in initiating signal pathways. It gives an overview of the emergence of mitochondria as an important regulator of cell signaling, with a particular focus on their pathophysiology.
This book covers many aspects of atherogenesis, with particular emphasis on lipid and lipoprotein metabolism. Also explored are the roles of nuclear hormone receptors on lipid and lipoprotein metabolism and their complex roles in atherogenesis.
It analyses how mitochondria affect metabolic pathways, how they are active in the regulation of cytosolic constituents, and their role in initiating signal pathways. It gives an overview of the emergence of mitochondria as an important regulator of cell signaling, with a particular focus on their pathophysiology.
It is now well known that proteases are found everywhere, in viruses and bacteria as well as in all human, animal and plant cells, and play a role in a variety of biological functions ranging from digestion, fertilization, development to senescence and death.
The unique biology of cardiac fibroblasts and related cells, such as cardiac myofibroblasts and valvular interstitial cells, distinguish them from other fibroblastic cells, a concept that is only beginning to be widely appreciated.
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