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Proteins
With three Nobel Laureates contributing to this invaluable collection of high-quality articles, carefully selected from the highly praised R.A. Meyer's Encyclopedia, these two volumes cover a wide range of topics in protein research. Clearly divided into sections on structure, modeling, expression, analysis and others, the chapters are designed to aid readers of all levels of expertise: Each chapter includes a glossary of the most important keywords, a concise summary of the article concerned and comprehensive references for further reading. Similarly, the uniform structure of the articles makes them very easy to use, resulting in a ready reference for molecular and cell biologists, biochemists, biophysicists, and biotechnologists, as well as those working in the pharmaceutical and biotechnological industries.
DNA'Protein Interactions
Dr. Tom Moss assembles the new standard collection of cutting-edge techniques to identify key protein-DNA interactions and define their components, their manner of interaction, and their manner of function, both in the cell and in the test tube. The techniques span a wide range, from factor identification to atomic detail, and include multiple DNA footprinting analyses, including in vivo strategies, gel shift (EMSA) optimization, SELEX, surface plasmon resonance, site-specific DNA-protein crosslinking, and UV laser crosslinking. Comprehensive and broad ranging, DNA-Protein Interactions: Principles and Protocols, 2nd Edition, offers a stellar array of over 100 up-to-date and readily reproducible techniques that biochemists and molecular, cellular, and developmental biologists can use successfully today to understand DNA-protein interactions.
Why DNA?
Information is central to the evolution of biological complexity, a physical system relying on a continuous supply of energy. Biology provides superb examples of the consequent Darwinian selection of mechanisms for efficient energy utilisation. Genetic information, underpinned by the Watson-Crick base-pairing rules is largely encoded by DNA, a molecule uniquely adapted to its roles in information storage and utilisation.This volume addresses two fundamental questions. Firstly, what properties of the molecule have enabled it to become the predominant genetic material in the biological world today and secondly, to what extent have the informational properties of the molecule contributed to the expansion of biological diversity and the stability of ecosystems. The author argues that bringing these two seemingly unrelated topics together enables Schrödinger's What is Life?, published before the structure of DNA was known, to be revisited and his ideas examined in the context of our current biological understanding.
DNA Information: Laws of Perception
This book explores the double coding property of DNA, which is manifested in the digital and analog information types as two interdependent codes. This double coding principle can be applied to all living systems, from the level of the individual cell to entire social systems, seen as systems of communication. Further topics discussed include the ubiquitous problem of logical typing, which reflects our inherent incapacity to simultaneously perceive discontinuity and continuity, the problem of time, and the peculiarities of autopoietic living systems. It is shown that the scientific “truths” that appear to be coherent constructions connecting the scientifically verified observations by the rules of logic are in fact always relative and never absolute.
The Journal of a Tour to the Hebrides with Samuel Johnson, LL.D
DigiCat Publishing presents to you this special edition of "The Journal of a Tour to the Hebrides with Samuel Johnson, LL.D" by James Boswell. DigiCat Publishing considers every written word to be a legacy of humankind. Every DigiCat book has been carefully reproduced for republishing in a new modern format. The books are available in print, as well as ebooks. DigiCat hopes you will treat this work with the acknowledgment and passion it deserves as a classic of world literature.
