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OUT OF AFRICA, INTO DARKNESS... When an archaeologist goes missing in the Congo basin, Professor Randolph Harkness and young tearaway Ross McCartney go in search of her – only to stumble upon a conspiracy to conceal ancient horrors lost to the passage of time. Evading spies and trained killers, can they expose this cover-up? Or will they be buried with it? An unputdownable thriller, The Killing Gene reveals the story of our species, the paradox of the modern mind and our innate predilection for murder... ***PRAISE FOR THE KILLING GENE*** 'A real page-turner.' Rob Sinclair, author of the bestselling Enemy series 'In an epic adventure stretching from the jungles of the Congo to the valleys of Tajikistan and beyond, The Killing Gene blends exceptional research and a keen observation of human nature to create a captivating and intelligent adventure novel. Featuring a tenacious hero who must unravel a menacing conspiracy if he is to reveal the truth to the world, this is another stunning thriller from E. M. Davey.' Rob Jones, author of the international bestselling Joe Hawke series 'Davey's writing is punchy, yet lyrical, delving deep into the distant past of humankind, questioning what makes Homo sapiens unique and what the future might hold for the one race on earth that has inherited The Killing Gene.' Matthew Harffy, author of The Bernicia Chronicles series 'Gripping, shocking... a dispatch from the front line where ancient history meets modern nightmares. E.M. Davey has been to some of the wildest places on Earth, and it shows. This will keep its hooks in you long past the final page.' Tom Harper, author of The Lost Temple
OUT OF AFRICA, INTO DARKNESS... When an archaeologist goes missing in the Congo basin, Professor Randolph Harkness and young tearaway Ross McCartney go in search of her – only to stumble upon a conspiracy to conceal ancient horrors lost to the passage of time. Evading spies and trained killers, can they expose this cover-up? Or will they be buried with it? An unputdownable thriller, The Killing Gene reveals the story of our species, the paradox of the modern mind and our innate predilection for murder... ***PRAISE FOR THE KILLING GENE*** 'A real page-turner.' Rob Sinclair, author of the bestselling Enemy series 'In an epic adventure stretching from the jungles of the Congo to the valleys of Tajikistan and beyond, The Killing Gene blends exceptional research and a keen observation of human nature to create a captivating and intelligent adventure novel. Featuring a tenacious hero who must unravel a menacing conspiracy if he is to reveal the truth to the world, this is another stunning thriller from E. M. Davey.' Rob Jones, author of the international bestselling Joe Hawke series 'Davey's writing is punchy, yet lyrical, delving deep into the distant past of humankind, questioning what makes Homo sapiens unique and what the future might hold for the one race on earth that has inherited The Killing Gene.' Matthew Harffy, author of The Bernicia Chronicles series 'Gripping, shocking... a dispatch from the front line where ancient history meets modern nightmares. E.M. Davey has been to some of the wildest places on Earth, and it shows. This will keep its hooks in you long past the final page.' Tom Harper, author of The Lost Temple
Includes practical advise on how to search for jobs, write a resume, land an interview, and more in the fields of advertising and public relations.
Genetically engineered organisms (GEOs) have been under development for more than 20 years while GE crops have been grown commercially during the last decade. During this time, a number of questions have cropped up concerning the potential consequences that certain GEOs might have on natural or managed ecosystems and human health. Interest in developing methods to confine some GEOs and their transgenes to specifically designated release settings has increased and the success of these efforts could facilitate the continued growth and development of this technology. Biological Confinement of Genetically Engineered Organisms examines biological methods that may be used with genetically engineered plants, animals, microbes, and fungi. Bioconfinement methods have been applied successfully to a few non-engineered organisms, but many promising techniques remain in the conceptual and experimental stages of development. This book reviews and evaluates these methods, discusses when and why to consider their use, and assesses how effectively they offer a significant reduction of the risks engineered organisms can present to the environment. Interdisciplinary research to develop new confinement methods could find ways to minimize the potential for unintended effects on human health and the environment. Need for this type of research is clear and successful methods could prove helpful in promoting regulatory approval for commercialization of future genetically engineered organisms.
The number of patients affected by and dying from what can be considered as a "biofilm disease" is higher than heart disease and cancer combined. Thus, this is a hugely important work that describes the molecular mechanisms of cell-to-cell communication among bacterial cells in a biofilm, the development of antibiofilm inhibitors such as quorum-sensing inhibitors, and the use of biofilm inhibitors to prevent and treat bacterial infections in humans and other animals.
The second part of an updated edition of the classic Methods in Cell Biology, Volume 48, this book emphasizes diverse methods and technologies needed to investigate C. elegans, both as an integrated organism and as a model system for research inquiries in cell, developmental, and molecular biology, as well as in genetics and pharmacology. By directing its audience to tried-and-true and cutting-edge recipes for research, this comprehensive collection is intended to guide investigators of C. elegans for years to come. - Diverse, up-to-date techniques covered will be useful to the broadening community of C. elegans researchers for years to come - Chapters written by leaders in the field - Tried and true methods deliver busy researchers a one-stop compendium of essential protocols
Praise for the Serial:"Full of interest not only for the molecular biologist - for whom the numerous references will be invaluable - but will also appeal to a much wider circle of biologists, and in fact to all those who are concerned with the living cell."--British Medical Journal - Provides a forum for discussion of new discoveries, approaches, and ideas in molecular biology - Contributions from leaders in their fields - Abundant references
What does game theory tell us about rational behavior? Is there such a thing as rational behavior, and if so, is it of any use to us? In this fascinating book, renowned Hungarian economist Laszlo Mero shows how game theory provides insight into such aspects of human psychology as altruism, competition, and politics, as well as its relevance to disparate fields such as physics and evolutionary biology. This ideal guide shows us how mathematics can illuminate the human condition.
The publication of the Vth International Symposium 1995 on "Mechanisms of Secondary Brain Damage" in Mauls/ltaly is a collection of focused reviews reaching from novel molecular- and cell biological findings to aspects of clinical management in head injury and cerebral ischemia. A specific purpose of these series of meetings introduced in 1984 is for an exchange on problems of mutual interest by international high ranking experts from the basic sciences and related clinical disciplines, such as intensive care medicine, neurology, or neurosurgery. The present volume covers three major areas: (a) Molecular and cell biological mechanisms including inflammation (b) Novel findings on mechanisms and treatment in cerebral ischemia (c) Secondary processes in head injury, regeneration and treatment Molecular-and cell biology is currently attracting attention towards activation of genomic processes associated with the demise of cells referred to as "programmed cell death" and "apoptosis" which, actually, might be distinguished from each other. Thus, the phenomenon of delayed neuronal death in selectively vulnerable brain areas following brief interruption of blood flow is scrutinized as to the contribution of the activation of suicide genes. The physiological role of such a response, among others, is removal of surplus neurons during ontogenesis of the brain. Yet, evidence is accumulating that similar mechanisms playa role in cerebral ischemia, probably also trauma, where nerve-and other cells demonstrate features of apoptosis. Observations on protection of neurons by administration of protein synthesis inhibitors in cerebral ischemia provide more direct support.