Download Free Comparative Biochemistry V1 Book in PDF and EPUB Free Download. You can read online Comparative Biochemistry V1 and write the review.

Comparative Biochemistry: A Comprehensive Treatise, Volume I: Sources of Free Energy focuses on the desire to provide a sound, critical, and provocative summary of knowledge in comparative biochemistry, including thermodynamics, biological systems, oxidation, visual systems, and aerobic and anaerobic reactions of inorganic substances. The selection first offers information on the introduction to comparative biochemistry and thermodynamics of living systems. Discussions focus on comparative point of views in biology and biochemistry, classical thermodynamics, reaction rates in chemical and biological systems, and thermodynamics of open systems. The text then ponders on comparative mechanisms for fatty acid oxidation; phosphoric acid anhydrides and other energy-rich compounds; and onium compounds and their biological significance. The publication examines phototropism and phototaxis and distribution and evolution of visual systems. Topics include phototropism in plants, analysis of phototropic reaction, nature of photoreceptors, role of auxin in phototropism of plants, visual systems of vertebrates, and habitat relations. The book also tackles aerobic and anaerobic reactions of inorganic substances and comparative biochemistry of glycolysis. The selection is a dependable source of data for readers interested in the sources of free energy.
Comparative Endocrinology: A Treatise in Two Volumes, Volume I: Glandular Hormones focuses on animal morphology, physiology, and chemistry and systematic and comprehensive account of endocrine principles from the comparative consideration. The selection first offers information on hypothalamic control of anterior pituitary and neurohypophyseal hormones. Discussions focus on adrenocorticotropin, thyrotropin, gonadotropins, physiological significance of the neurohypophyseal hormones in mammals, and physiological significance of the neurohypophyseal hormones in nonmammalian vertebrates. The text then takes a look at pituitary hormones affecting chromatophores and female gonadal hormones. The publication examines male gonadal hormones and adrenocortical hormones. Topics include action of testicular estrogen and ovarian testosterone, source of sex hormones in the male, factors regulating testicular functions, biochemistry of androgens, and functions of the adrenocortical hormones. The book then tackles chromaffin cell hormones, thyroid hormones, and parathyroid glands. The selection is a dependable source of data for readers interested in glandular hormones.
Biochemical Actions of Hormones, Volume I explores the significant developments toward understanding the primary effects of hormones in cellular receptors at the molecular level. This book is composed of 12 chapters that survey the molecular and biochemical approaches bearing on the problem of hormone mechanism. The opening chapters discuss the thyroid hormonal responses during metamorphic process in Amphibia; the primary role of hormones in biochemical differentiation; the influence of hormones on protein synthesis and the importance of protein synthesis mechanism; and the biochemical rhythms within the pineal gland and the rhythm in hepatic tyrosine transaminase activity. The subsequent chapters examine the effects of a number of hormones on transport systems in the cell membranes, the protein interaction with steroids, and the influence of insulin on protein and nucleic acid metabolism. The remaining five chapters deal with the physiology, mechanism of action, and biological effects of various hormones, such as mineralocorticoids, parathyroid hormone, calcitonin, thyrotropin, and plant hormones. This book is an invaluable source for endocrinologists.
Cartilage, Volume 1: Structure, Function, and Biochemistry provides an in-depth treatment of cartilage structure, function, and biochemistry. Topics range from vertebrate and invertebrate cartilages to chondroblasts and chondrocytes, along with the use of transmission electron microscopy and scanning electron microscopy to examine cartilage. The collagens and cell kinetics of cartilage are also discussed. Comprised of 12 chapters, this volume begins with an overview of the diversity of cartilage in vertebrates and invertebrates in terms of structure, function, and evolution. The principal common attributes of vertebrate cartilages as well as those specific parameters that usefully serve to distinguish between cartilaginous tissues at several phylogenetic levels are discussed. Function and level of function are considered, along with their correlations with the structural attributes of a specific cartilage. Subsequent chapters explore the chondroblasts and chondrocytes of cartilage, particularly how they arise and how they are maintained; the ultrastructure of cartilage; the biochemistry of cartilaginous extracellular matrices; and the kinetic and metabolic properties of cartilage cells. The final chapter analyzes the mechanisms of calcification of cartilage. This book will be of interest to biologists and biochemists.
This book presents various examples of how advanced fluorescence and spectroscopic analytical methods can be used in combination with computer data processing to address different biochemical questions. The main focus is on evolutionary biochemistry and the description of biochemical and metabolic issues; specifically, the use of pulse amplitude modulated fluorescence (PAM) for the functional analysis of the cellular state, as well as results obtained by means of the derivative spectroscopy method characterizing structural reorganization of a cell under the influence of external factors, are discussed. The topics presented here will be of interest to biologists, geneticists, biophysicists and biochemists, as well as experts in analytical chemistry, pharmaceutical chemistry and radio chemistry and radio activation studies with protonen and alpha-particles. It also offers a valuable resource for advanced undergraduate and graduate students in biological, physical and chemical disciplines whose work involves derivative spectrophotometry and PAM-fluorescence.
Physiological Mammalogy, Volume I: Mammalian Populations reviews the physiology of mammals, the social use of space of these species, and the reciprocal role of endocrines and populations. The book presents many interesting ideas on the behavior of animals in populations and the effects of grouping of individuals upon the physiology of the organism. It also looks at population growth from an ecological viewpoint, with emphasis on limiting factors of natural populations and population interrelationships. This volume is organized into two chapters and begins with a discussion of formulations developed for the social use of space to determine whether there might be certain optimum group sizes, focusing on relationships that determine the "physiology of the community. The book also considers the essential nature of particles that make up a social system and how it affects the course of social evolution. The next chapter explores the endocrine adaptive responses of mammals, especially concerning population density, and presents evidence implicating these responses in the regulation of mammalian population growth. This book is a valuable resource for experimentalists working with mammals in the areas of physiology, mammalogy, and ecology, as well as for students and research workers.
tribute greatly to understanding the origins of The plan for this book goes back almost 20 years. Already, at that time, it was possible to recognize organisms. an extraordinary variation in metabolites and To provide the biochemist with a ready over processes superimposed upon the basic biochem view of the structural diversity of animals, the book includes a simplified version of animal sys ical system of animals. Each species, each indi tematics; for further information on the classifica vidual, in fact each type of cell of the multicellu lar organism possesses its own biochemical char tion, structure and life of particular animal spe acter, and this molecular variety, its biological sig cies, the reader should consult the relevant text nificance, and its evolutionary development books. It is assumed that the zoologist reader has throw up many interesting questions. The com a basic knowledge of biochemistry; important general biochemical facts are in any case given for parative approach that has been so productive at many of the subjects covered. the higher levels of complexity of morphology and physiology can also be used to great effect at I had already completed several chapters of the molecular level. this book by the beginning of the 1970s.
Comparative Biochemistry: A Comprehensive Treatise, Volume VI: Cells and Organisms focuses on the complex composition of cells and organisms. The book opens with discussions on the biochemistry of morphogenesis. Bacterial germination and sporulation; seed germination; egg development of sea urchins; sporulation of cellular slime mold; and amphibian differentiation are described. The volume looks at the comparative aspects of metabolic control, biochemical basis of chemical needs, biochemistry of insect metamorphosis, and hormones in invertebrates. The text also highlights the presence of protein hormones in vertebrates. The differences between neurohypophyseal and melanocorticotropic hormones are identified. The book ends with discussions on the comparative biochemistry of digestive mechanisms and detoxication. Digestion in special physiological and systematic groups of vertebrates, carnivorous plants, and invertebrates; detoxication and adoption of terrestrial habitat; and the developmental aspects of detoxication are discussed. The book is a good source of data for readers wanting to explore the complex composition of organisms and cells.