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Told in the manner of scientific reports, this collection of science fiction stories explores the allegorical overtones about the precariousness of species. Biogenesis and Other Stories collects five stories by Tatsuaki Ishiguro. In Biogenesis, two professors research the rare winged mouse and how the genetic makeup of the creatures pointed to their eventual extinction. The discover that upon mating, both the male and female of the species died. The professors try to clone the winged mice without success, so they breed the remaining pair in captivity, noting the procedure, which includes a vibration of the creatures' wings, what appeared to be kissing, and the shedding of tears—composed of the same substance as their blood—until their eventual death.

Biogenesis

Emeritus Professor of Origin of Life and Soil Science Noam Lahav

Published: 1999

Total Pages: 349


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Biogenesis provides an up-to-date and detailed discussion of the interdisciplinary study of the origin of life, including in-depth investigations into its history, assumptions, experimental strategies, theories, models, and controversies. Written both critically and objectively, the book explores topics including the history of the search for life's origin from the Greek philosophers to contemporary scientists; selected attributes of life which are connected to theories of biogenesis; the main features of our solar system and earth, where life is assumed to have originated; and the rationale and strategies of scientific theories of the origin of life. Filled with fascinating insights, Biogenesis will appeal to a wide range of scientists and students in biology, chemistry, and geology.
The definitive and dramatic story of the Alex Rodriguez and Biogenesis scandal, written by the reporters who broke and covered the story. “Blood Sport is riveting...a tragicomedy filled with characters straight out of a Carl Hiaasen novel.”—The Washington Post The effects of the Biogenesis case—the biggest drug scandal in the history of American sports—are still being felt today. Fifteen Major League Baseball players were suspended, including Yankees superstar Alex Rodriguez. Ten men were indicted in federal court. And a new MLB commissioner was elected based on his role leading the response to the case. Now, Tim Elfrink—who broke that first story in the Miami New Times—joins forces with Pulitzer Prize finalist investigative reporter Gus Garcia-Roberts to tell the shocking full story behind the headlines. Blood Sport blows the lid off the most expensive scandal in the history of the game, and now includes an epilogue revealing the stunning aftermath of the scandal and its effects for years to come.
Membrane proteins and membrane lipids form complex interactive systems that are highly dynamic and able to be studied only by combinations of different in vivo and in vitro techniques. In Membrane Biogenesis: Methods and Protocols, experts in the field present a broad collection of methods to study the biogenesis and function of cellular membranes. Beginning with how membrane lipids or membrane proteins can be studied, this detailed volume continues with sections covering different procedures to investigate the interaction of membrane proteins among each other or with membrane lipids, methods to study the biogenesis of membrane proteins and the dynamics of organelles, as well as protocols for the analyses of the functions or complex organization of membrane proteins. Written in the highly successful Methods in Molecular BiologyTM series format, chapters include introductions to their respective topics, lists of materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Extensive and easily applicable, Membrane Biogenesis: Methods and Protocols provides readers with a comprehensive but still concise collection including both basic protocols of rather general application and more specialized methods for specific and novel techniques.
The Biogenesis of Cellular Organelles represents a comprehensive summary of recent advances in the study of the biogenesis and functional dynamics of the major organelles operating in the eukaryotic cell. This book begins by placing the study of organelle biogenesis in a historical perspective by describing past scientific strategies, theories, and findings and relating these foundations to current investigations. Reviews of protein and lipid mediators important for organelle biogenesis are then presented, and are followed by summaries focused on the endoplasmic reticulum, Golgi, lysosome, nucleus, mitochondria, and peroxisome.
Chloroplast is the organelle where the life-giving process photosynthesis takes place; it is the site where plants and algae produce food and oxygen that sustain our life. The story of how it originates from proplastids, and how it ultimately dies is beautifully portrayed by three authorities in the field: Basanti Biswal, Udaya Biswal and M. K. Raval. I consider it a great privilege and honor to have been asked to write this foreword. The book ' Chloroplast biogenesis: from proplastid to gerontoplast' goes much beyond photosynthesis. The character of the book is different from that of many currently available books because it provides an integrated approach to cover the entire life span of the organelle including its senescence and death. The books available are mostly confined to the topics relating to the 'build up' or development of chloroplast during greening. The story of organelle biogenesis without description of the events associated with its regulated dismantling during genetically programmed senescence is incomplete. A large volume of literature is available in this area of chloroplast senescence accumulated during the last 20 years. Although some of the findings in this field have been organized in the form of reviews, the data in the book are generalized and integrated with simple text and graphics. This book describes the structural features of prop las tid and its transformation to fully mature chloroplast, which is subsequently transformed into gerontoplast exhibiting senescence syndrome. The book consists of five major chapters.
Biogenesis of Natural Compounds, Second Edition is released to provide updated information on the biogenesis of natural compounds. Most of the chapters in this book are rewritten, and new author contributes a paper on the biogenesis of proteins. This edition also includes a new chapter that deals with the formation of carcinogenic polynuclear hydrocarbons. However, all other chapters are maintained; some of which have modified headings. This edition will help those studying the biogenesis of natural compounds and in need of more updated information compared to those presented in the previous edition.
Develops a model of the origin of life in which cells originate first, proteins follow, and genes evolve last, which is supported by evidence mustered from biology, biochemistry, and biophysics. This work explores the origins of life and is for anyone who has ever thought seriously about the origin of life.
The book covers the microbiological, environmental and biotechnological aspects of alkane production. Alkanes are important energy-rich compounds on earth. Microbial synthesis of methane and other alkanes is an essential part of the geochemical cycling of carbon and offers perspectives for our biobased economy. This book discusses different aspects of current knowledge of microbial alkane production. Chapters with state of the art information are written by renowned scientists in the field. The chapters are organised into four themed parts:1. Biochemistry of Biogenesis - Hydrocarbons2. Taxonomy, Ecophysiology and Genomics of Biogenesis - Hydrocarbons3. Biogenic Communities: Members, Functional Roles4. Global Consequences of Methane Production
Mitochondria are complex organelles, possessing a double-membrane and even their own genome, the mtDNA. They play a pivotal role in cellular metabolism, respiration, and production of ATP essential for the normal function of all human organ systems. It is not surprising, therefore, that genetic defects of mitochondrial functions cause a wide spectrum of human diseases. This book provides the first modern and truly comprehensive coverage of the biochemistry, genetics, and pathology of mitochondria in different organisms. It particularly focuses on the recent advances in our understanding of basic mitochondrial research to the consequences of dysfunction at the molecular level. The 13 contributions written by leading researchers in the field include topics such as: mitochondrial genome evolution and mtDNA stability, mitochondrial biogenesis and protein quality control, mitochondrial morphology, assembly and function of the mitochondrial energy generation apparatus and mitochondrial metabolic pathways. These are particularly oriented to link in these various mitochondrial pathways to the clinical consequences of their dysfunctions.