Synchrony is a science in its infancy, and Strogatz is a pioneer in this new frontier in which mathematicians and physicists attempt to pinpoint just how spontaneous order emerges from chaos. From underground caves in Texas where a French scientist spent six months alone tracking his sleep-wake cycle, to the home of a Dutch physicist who in 1665 discovered two of his pendulum clocks swinging in perfect time, this fascinating book spans disciplines, continents, and centuries. Engagingly written for readers of books such as Chaos and The Elegant Universe, Sync is a tour-de-force of nonfiction writing.
Life is the most extraordinary phenomenon in the known universe; but how did it come to be? Even in an age of cloning and artificial biology, the remarkable truth remains: nobody has ever made anything living entirely out of dead material. Life remains the only way to make life. Are we still missing a vital ingredient in its creation?
Using first-hand experience at the cutting edge of science, Jim Al-Khalili and Johnjoe Macfadden reveal that missing ingredient to be quantum mechanics. Drawing on recent ground-breaking experiments around the world, each chapter in Life on the Edge illustrates one of life's puzzles: How do migrating birds know where to go? How do we really smell the scent of a rose? How do our genes copy themselves with such precision? Life on the Edge accessibly reveals how quantum mechanics can answer these probing questions of the universe.
Guiding the reader through the rapidly unfolding discoveries of the last few years, Al-Khalili and McFadden describe the explosive new field of quantum biology and its potentially revolutionary applications, while offering insights into the biggest puzzle of all: what is life? As they brilliantly demonstrate in these groundbreaking pages, life exists on the quantum edge.
– Winner, Stephen Hawking Medal for Science Communication
Companion resources site
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Stem Cell Research For Dummies offers a balanced,plain-English look at this politically charged topic, cutting awaythe hype and presenting the facts clearly for you, free fromdebate. It explains what stem cells are and what they do, thelegalities of harvesting them and using them in research, thelatest research findings from the U.S. and abroad, and theprospects for medical stem cell therapies in the short and longterm.Explains the differences between adult stem cells andembryonic/umbilical cord stem cellsProvides both sides of the political debate and the pros andcons of each side's opinionsIncludes medical success stories using stem cell therapy andits promise for the future
Comprehensive and unbiased, Stem Cell Research ForDummies is the only guide you need to understand this volatileissue.
Darwin’s theory of natural selection explains how useful adaptations are preserved over time. But the biggest mystery about evolution eluded him. As genetics pioneer Hugo de Vries put it, “natural selection may explain the survival of the fittest, but it cannot explain the arrival of the fittest.”
Can random mutations over a mere 3.8 billion years really be responsible for wings, eyeballs, knees, camouflage, lactose digestion, photosynthesis, and the rest of nature’s creative marvels? And if the answer is no, what is the mechanism that explains evolution’s speed and efficiency?
In Arrival of the Fittest, renowned evolutionary biologist Andreas Wagner draws on over fifteen years of research to present the missing piece in Darwin's theory. Using experimental and computational technologies that were heretofore unimagined, he has found that adaptations are not just driven by chance, but by a set of laws that allow nature to discover new molecules and mechanisms in a fraction of the time that random variation would take.
Consider the Arctic cod, a fish that lives and thrives within six degrees of the North Pole, in waters that regularly fall below 0 degrees. At that temperature, the internal fluids of most organisms turn into ice crystals. And yet, the arctic cod survives by producing proteins that lower the freezing temperature of its body fluids, much like antifreeze does for a car’s engine coolant. The invention of those proteins is an archetypal example of nature’s enormous powers of creativity.
Meticulously researched, carefully argued, evocatively written, and full of fascinating examples from the animal kingdom, Arrival of the Fittest offers up the final puzzle piece in the mystery of life’s rich diversity.
Includes New and Updated Material
Now in its second edition, this work is the culmination of research and discussions with technical experts, as well as USP and FDA representatives on various topics of interest to the pharmaceutical microbiologist and those responsible for the microbial quality of products, materials, equipment, and manufacturing facilities. New in this edition is an entire chapter dedicated to the topic of biofilms and their impact on pharmaceutical and biopharmaceutical operations. The subject of rapid methods in microbiology has been expanded and includes a discussion on the validation of alternative microbiological methods and a case study on microbial identification in support of a product contamination investigation.
Substantially updated and revised, this book assists readers in understanding the fundamental issues associated with pharmaceutical microbiology and provides them with tools to create effective microbial contamination control and microbial testing programs for the areas under their responsibility.
It is now evident that the "illegal biologicals" he referred to included the pathogenic agents which have led to the AIDS epidemic and other world health crisis.
In The Extremely Unfortunate Skull Valley Incident the authors trace history of the secret war against and the terrible experiments performed upon their own citizens as well as the Third World populations. But Skull Valley does more than that. In their research the father-son team discovered the links between AIDS and many other diseases now increasing dramatically worldwide. Chief among these is myalgic encephalomyelitis/fibromyalgia dismissively labelled " chronic fatigue syndrome" by the government researchers.
In addition to AIDS and ME/FM the Scotts also demonstrate the etiological links to other neurosystemic degenerative diseases such as Alzheimer's, multiple sclerosis, Parkinson's, diabetes, schizophrenia, Crohn's-colitis, etc. All are said to be "of no known cause and having no known cure". Researchers Donald and William Scott have discovered that there is a "known cause" and there may well be a cure.
The cause is a little known organism called the "mycoplasma" which has the capacity to access genetically pre-disposed cells and to destroy them by up-taking pre-formed sterols. This process is the "degeneration" which characterizes all of the diseases under study. When the cells of the endocrine system are destroyed by a sufficient concentration of mycoplasmas, the balance of the physiological balance is altered and the immune system loses its ability to defend the infected victim, and co-factors such as the human immune-deficiency virus (HIV), and those with cause pneumonia, are free to have their way, leading to full-blown AIDS.
Science is on the cusp of a revolutionary breakthrough. We now understand more about aging—and how to prevent and reverse it—than ever before.
In recent years, our understanding of the nature of aging has grown exponentially, and dramatic life extension—even age reversal—has moved from science fiction to real possibility.
Dr. Michael Fossel has been in the forefront of aging research for decades and is the author of the definitive textbook on human aging. In The Telomerase Revolution, he takes us on a detailed but highly accessible scientific journey, providing startling insights into the nature of human aging.
Twenty years ago, there was still considerable debate of the nature of human aging, with a variety of competing theories in play. But scientific consensus is forming around the telomere theory of aging. The essence of this theory is that human aging is the result of cellular aging. Every time a cell reproduces, its telomeres (the tips of the chromosomes) shorten. With every shortening of the telomeres, the cell’s ability to repair its molecules decreases. It ages. Human aging is the result of the aging of the body’s trillions of cells.
But some of our cells don’t age. Sex cells and stem cells can reproduce indefinitely, without aging, because they create telomerase. Telomerase re-lengthens the telomeres, keeping these cells young.
The Telomerase Revolution describes how telomerase will soon be used as a powerful therapeutic tool, with the potential to dramatically extend life spans and even reverse human aging. Telomerase-based treatments are already available, and have shown early promise, but much more potent treatments will become available over the next decade.
The Telomerase Revolution is the definitive work on the latest science on human aging, covering both the theory and the clinical implications. It takes the reader to the forefront of the upcoming revolution in human medicine.
With research gleaned from the National Institutes of Health, T.S. Wiley and Bent Formby deliver staggering findings: Americans really are sick from being tired. Diabetes, heart disease, cancer, and depression are rising in our population. We’re literally dying for a good night’s sleep.
Our lifestyle wasn’t always this way. It began with the invention of the lightbulb.
When we don’t get enough sleep in sync with seasonal light exposure, we fundamentally alter a balance of nature that has been programmed into our physiology since day one. This delicate biological rhythm rules the hormones and neurotransmitters that determine appetite, fertility, and mental and physical health. When we rely on artificial light to extend our day until 11 p.m., midnight, and beyond, we fool our bodies into living in a perpetual state of summer. Anticipating the scarce food supply and forced inactivity of winter, our bodies begin storing fat and slowing metabolism to sustain us through the months of hibernation and hunger that never arrive. Our own survival instinct, honed over millennia, is now killing us.
Wiley and Formby also reveal:
-That studies from our own government research prove the role of sleeplessness in diabetes, heart disease, cancer, infertility, mental illness, and premature aging
-Why the carbohydrate-rich diets recommended by many health professionals are not only ridiculously ineffective but deadly
-Why the lifesaving information that can turn things around is one of the best-kept secrets of our day.
Lights Out is one wake-up call none of us can afford to miss.
The book begins with a general coverage of the characteristics of swine and the swine industry with emphasis on the gastrointestinal tract. It then describes the various classes of nutrients and how these nutrients are metabolized by swine and the factors affecting their utilization. The next section covers the practical aspects of swine nutrition from birth through gestation and lactation in sows and to the feeding of adult boars. The nutritional aspects of the various feedstuffs commonly fed to swine are covered in the following section. The final chapters of the book are devoted to coverage of various techniques used in swine nutrition research.
In Life’s Ratchet, physicist Peter M. Hoffmann locates the answer to this age-old question at the nanoscale. The complex molecules of our cells can rightfully be called “molecular machines,” or “nanobots”; these machines, unlike any other, work autonomously to create order out of chaos. Tiny electrical motors turn electrical voltage into motion, tiny factories custom-build other molecular machines, and mechanical machines twist, untwist, separate and package strands of DNA. The cell is like a city—an unfathomable, complex collection of molecular worker bees working together to create something greater than themselves.
Life, Hoffman argues, emerges from the random motions of atoms filtered through the sophisticated structures of our evolved machinery. We are essentially giant assemblies of interacting nanoscale machines; machines more amazing than can be found in any science fiction novel. Incredibly, the molecular machines in our cells function without a mysterious “life force,” nor do they violate any natural laws. Scientists can now prove that life is not supernatural, and that it can be fully understood in the context of science.
Part history, part cutting-edge science, part philosophy, Life’s Ratchet takes us from ancient Greece to the laboratories of modern nanotechnology to tell the story of our quest for the machinery of life.
Emerging, re-emerging, and antibiotic-resistant infectious diseases continue to increase at an alarming rate throughout the world. Written for a wide range of health professionals, particularly nurses, this revised edition provides a comprehensive and up-to-date overview of these diseases: their epidemiology, clinical manifestations, prevention, and treatment.
With contributions by a multidisciplinary team of nurses, physicians, and infectious disease specialists, the book includes material on the most recent and important new emerging infectious diseases:
Avian influenza and SARSIssues of demographics and microbial resistanceSpecial topics, including bioterrorismBehavioral and cultural factorsInfectious etiologies of chronic diseasesTravel and recreational exposure
Each chapter is amply illustrated with clinical case examples to demonstrate the pitfalls in differential diagnosis and elucidate proper management and treatment. Valuable appendices provide critical reference information for each of the bacterial, viral, fungal, and parasitic diseases.
This book can be used as a text for a year long graduate course in statistics, computer science, or mathematics, for self-study, and as an invaluable research reference on probabiliity and its applications. Particularly worth mentioning are the treatments of distribution theory, asymptotics, simulation and Markov Chain Monte Carlo, Markov chains and martingales, Gaussian processes, VC theory, probability metrics, large deviations, bootstrap, the EM algorithm, confidence intervals, maximum likelihood and Bayes estimates, exponential families, kernels, and Hilbert spaces, and a self contained complete review of univariate probability.
Rapid advances in DNA sequencing technology have led to a major change in the way that prokaryotes are classified. Sequence analysis of highly conserved regions of the bacterial genome, such as the small subunit rRNA gene, now provide us with a universal method of estimating the evolutionary relationships among all organisms. Such gene-based phylogenetic classifications have led to many new discoveries about prokaryotes that were not reflected in the classification used in the first edition of the Manual. We now know that the prokaryotes fall into two broad domains: the Archaea and the Bacteria. Whereas the Archaea were once thought of as the more primitive of the prokaryotic lineages, we now realize that they are more closely related to the eukaryotes than to the Bacteria by this measure. We have come to realize that many taxa based on shared phenotypic features may be quite distinct from one another based on phylogenetic evidence. The Chromatium, a genus of anoxygenic photosynthetic bacteria are more closely related to E. coli than to some other lineages of anoxygenic photosynthetic bacteria; Mycoplasma and other cell-wall deficient species are members of the Gram-positive clade; the medically important Chlamydia are aligned with the Planctomyces; and the Clostridium, which form a phenotypically coherent group, fall into more than a dozen phylogenetically disparate groups of Gram-positive bacteria. We have also come to realize that prokaryotes represent one of the major sources of biodiversity in nature and play a major role in the functioning of all ecosystems.
In addition to such fundamental revelations, the widespread application of new methods of classifying prokaryotes has led to an explosive growth in the number of validly published species and higher taxa. Since completion of the first edition of the Manual, the number of published species has more than tripled and has been accompanied by numerous taxonomic realignments that take into consideration newly published findings.
Phylogenetic classification is now broadly accepted as the preferred method of representing taxonomic relationships among prokaryotes and eukaryotes alike. While the evolutionary history of the prokaryotes is far from complete, there is already sufficient data to provide a reasonable view of the major lines of descent of the cultivable species. Although the second edition of the Manual retains it’s unique and highly structured style of presentation of information along genus and species lines, the arrangement of content is along the phylogenetic lines of the small subunit rRNA gene, so that the reader is presented with the information in a more natural, biological perspective. The second edition of the Manual also contains more in-depth ecological information about individual taxa and many new introductory essays.
In the preface to the first edition of Bergey’s Manual of Determinative Bacteriology, published in 1923, one of the stated goals of that work was to "stimulate efforts to perfect the classification of bacteria..." The editors of the first edition regarded the Manual as "a progress report leading to a more satisfactory classification in the future" rather than a definitive classification. Bergey’s Manual Trust continues in this tradition and recognizes that, for the Manual to remain scientifically meaningful and useful to the scientific community, it is time for the new edition.
Overview of the second edition of the Manual
As before, the Manual is subdivided into multiple volumes and each genus occurs as a separate chapter with introductory text provided at higher taxonomic levels. The second edition differs from the first in that clinically relevant species are not grouped together into two volumes. Rather, these taxa appear in their proper phylogenetic place. The text is arranged to follow the lineages defined by the large-scale phylogenetic trees maintained by the Ribosomal Database Project and the ARB Project to which a formalized, hierarchical taxonomy and nomenclature have been applied. As volume 2 goes to press, the taxonomy encompasses 6466 species that are assigned to 26 phyla, 41 classes, 88 orders, 240 families and 1194 genera. Each volume contains a collection of introductory essays on the history and use of the Manual; a detailed discussion of the prokaryotic domains; overviews of the classification, identification, and naming of prokaryotes; prokaryotic ecology and phylogeny; the role of culture collections in microbiology; and intellectual property of prokaryotes. Each volume also includes taxon specific essays and a detailed road map that presents the reader with a broad view of how the entire edition will be arranged, a mapping of phylogenetic groups to the phenotypic groups used in the first edition (Volume 1), or an update of newly published taxa and combinations appearing in print since the preceding volume (Volumes 2-5). The details of each volume in print (Volume 1), in press (Volume 2) or in preparation (Volumes 3-5) follow.
Volume 1 "The Archaea and the Deeply Branching and Phototrophic Bacteria" (2001) David R. Boone and Richard W. Castenholz (Volume Editors), George M. Garrity (Editor-in-Chief) with contributions from 105 colleagues. 742 pages with 320 figures and 95 tables. The volume provides descriptions of 413 species in 165 genera that are assigned to the phyla Crenarchaeota, Euryarchaeota, Aquificae, Thermatogae, Thermodesulfobacteria, "Deinococcus-Thermus", Chrysiogenetes, Chloroflexi, Thermomicrobia, Nitrospira, Deferribacteres, Cyanobacteria, and Chlorobi. In addition, the volume contains an introductory chapter to nonoxygenic, phototropic species of Bacteria belonging to the Proteobacteria and Firmicutes, which will be repeated in more detail in subsequent volumes.
Volume 2 "The Proteobacteria." (2004) Don J. Brenner, Noel R. Krieg, James T. Staley (Volume Editors), and George M. Garrity (Editor-in-Chief) with contributions from 339 colleagues. The volume provides descriptions of more than 2000 species in 538 genera that are assigned to the phylum Proteobacteria. This volume is subdivided into three parts. Part A, The Introductory Essays (332 pgs, 76 figures, 37 tables); Part B, The Gammaproteobacteria (1203 pages, 222 figures, and 300 tables); and Part C The Alpha-, Beta-, Delta-, and Epsilonproteobacteria (1256 pages, 512 figures, and 371 tables).
Volume 3 "The Firmicutes". (2005 anticipated). Paul De Vos, Dorothy Jones, Fred A. Rainey, Karl-Heinz Schleifer, Joseph Tully, (Volume Editors) and George M. Garrity (Editor-in-Chief), with contributions from 120 colleagues. This volume will provide descriptions of more than 1346 species in 235 genera belonging to the phylum Firmicutes. Anticipated length 2100 pages.
Volume 4 "The Actinobacteria". (2006 anticipated) 1141 species in 106 genera. Estimated page length: 878 with 192 tables and 321 figures. Michael Goodfellow, Peter Kaempfer, Peter H.A. Sneath, Stanley T. Williams (Volume Editors) and George M. Garrity (Editor-in-Chief) with contributions from 60 colleagues. This volume will provide descriptions of over 1534 species in 174 genera belonging to the phylum Firmicutes. Anticipated length 2454 pages.
Volume 5 "The Planctomycetes, Chlamydiae, Spirochetes, Fibrobacters, Bacteroidetes, Fusobacteria, Acidobacteria, Verrucomicrobia, Dictyoglomi, and Gemmatomonadetes " more than 405 species assigned to 114 genera in 10 phyla. Anticipated length: 648 pages Editors and authors under discussion.
It is not yet possible to give a complete account of the relations between the organelles of two compartments and of the mechanisms by which some degree of order is maintained in the cell as a whole. However, a new breed of scientists, known as molecular cell biologists, have already contributed in some measure to our understanding of several biological phenomena notably interorganelle communication. Take, for example, intracellular membrane transport: it can now be expressed in terms of the sorting, targeting, and transport of protein from the endoplasmic reticulum to another compartment.
This volume contains the first ten chapters on the subject of organelles. The remaining four are in Volume 3, to which sections on organelle disorders and the extracellular matrix have been added.
*A one-stop source for proven methods and protocols for synthesizing bioconjugates in the lab
*Step-by-step presentation makes the book an ideal source for researchers who are less familiar with the synthesis of bioconjugates
*More than 600 figures that visually describe the complex reactions associated with the synthesis of bioconjugates
*Includes entirely new chapters on the latest areas in the field of bioconjugation as follows:
Microparticles and nanoparticles
Silane coupling agents
Dendrimers and dendrons
Discrete PEG compounds
Buckyballs,fullerenes, and carbon nanotubes
Mass tags and isotope tags
Bioconjugation in the study of protein interactions
* Thoroughly revised and expanded by over 30% with 3400 new entries
* Expanded coverage of areas greatly impacted by genomics
* Includes new terms that relate to the recent elucidation of underlying mechanisms of cell cycle regulation, apoptosis, relationship between mitochondria and disease, metabolic control, and stem cell biology
* Consistently provides the most complete short definitions of technical terminology for anyone working in life sciences today
* Extensively cross-referenced
* Provides multiple definitions, notes on word origins, and other useful features
This book provides a comprehensive guide to the methodology involved in the development of cell lines and the cell engineering approach that can be employed to enhance productivity, improve cell function, glycosylation and secretion and control apoptosis. It presents an overall picture of the current topics central to expression engineering including such topics as epigenetics and the use of technologies to overcome positional dependent inactivation, the use of promoter and enhancer sequences for expression of various transgenes, site directed engineering of defined chromosomal sites, and examination of the role of eukaryotic nucleus as the controller of expression of genes that are introduced for production of a desired product. It includes a review of selection methods for high producers and an application developed by a major biopharmaceutical industry to expedite the cell line development process. The potential of cell engineering approch to enhance cell lines through the manipulation of single genes that play important roles in key metabolic and regulatory pathways is also explored throughout.
Developed at MIT in collaboration with award-winning high school teachers, BioBuilder teaches the foundational ideas of the emerging synthetic biology field, as well as key aspects of biological engineering that researchers are exploring in labs throughout the world. These lessons will empower teachers and students to explore and be part of solving persistent real-world challenges.Learn the fundamentals of biodesign and DNA engineeringExplore important ethical issues raised by examples of synthetic biologyInvestigate the BioBuilder labs that probe the design-build-test cycleTest synthetic living systems designed and built by engineersMeasure several variants of an enzyme-generating genetic circuitModel "bacterial photography" that changes a strain’s light sensitivityBuild living systems to produce purple or green pigmentOptimize baker’s yeast to produce ?-carotene
Visually Enhances Definitions in the Language of Immunology
Now with more than 1300 illustrations, Atlas of Immunology, Third Edition is the most thorough and up-to-date treatment of essentially all concepts needed to comprehend the complex science of immunology.
Completely revised and expanded, this third edition features:
Hundreds of new illustrations Two new chapters – Immunophenotyping of Hematopoietic Malignances and Immunomodulators An expanded chapter on the history of immunology Additional human CD markers
Written in a highly readable, two-column format, this complete reference covers a wide array of subjects, with content ranging from photographs of field pioneers to illustrations of molecular structures of recently characterized cell receptors, chemokines, and cytokines. The atlas also addresses the major histocompatability complex molecules, immunoglobulins, hematopoietic cells in leukemia, and molecules of related interest to immunologists. You won’t find another publication anywhere that matches the breadth or detail of illustrated immunological concepts.
This volume provides formulas and procedures for determination of sample size required not only for testing equality, but also for testing non-inferiority/superiority, and equivalence (similarity) based on both untransformed (raw) data and log-transformed data under a parallel-group design or a crossover design with equal or unequal ratio of treatment allocations. It contains a comprehensive and unified presentation of statistical procedures for sample size calculation that are commonly employed at various phases of clinical development. Each chapter includes, whenever possible, real examples of clinical studies from therapeutic areas such as cardiovascular, central nervous system, anti-infective, oncology, and women's health to demonstrate the clinical and statistical concepts, interpretations, and their relationships and interactions.
The book highlights statistical procedures for sample size calculation and justification that are commonly employed in clinical research and development. It provides clear, illustrated explanations of how the derived formulas and/or statistical procedures can be used.
Easily find and cross-reference information through a detailed table of contents that highlights clinical examples in red.
Review material quickly using pedagogical features, such as Essential Concept boxes, bolded words, and key clinical terms marked in red, that emphasize key details and reinforce your learning.
Integrate cell biology and histology with pathology thanks to vivid descriptive illustrations that compare micrographs with diagrams and pathological images.Apply the latest developments in pathology through updated text and new illustrations that emphasize appropriate correlations.
Expand your understanding of clinical applications with additional clinical case boxes that focus on applying cell and molecular biology to clinical conditions.
Effectively review concepts and reinforce your learning using new Concept Map flow charts that provide a framework to illustrate the integration of cell-tissue-structure-function within a clinical-pathology context.
This book provides a roadmap to the broad and varied career development opportunities in bioengineering, biotechnology, and related fields. Eminent practitioners lay out career paths related to academia, industry, government and regulatory affairs, healthcare, law, marketing, entrepreneurship, and more.
Lifetimes of experience and wisdom are shared, including "war stories," strategies for success, avoidance of common pitfalls, and discussions of the authors’ personal views and motivations. Career Development in Bioengineering and Biotechnology is an indispensable guide to some of the most exciting career and professional growth opportunities in science, engineering, and beyond, and a "must read" for anyone interested in a career related to this burgeoning field.
From the Foreword by U.S. National Medal of Science Laureate and Institute Professor Robert Langer, Massachusetts Institute of Technology: "This book provides a wealth of information and should serve as an excellent resource...The editors have gone to great effort to discuss a variety of critical topics in the burgeoning areas of bioengineering and biotechnology."
From the Introduction by Dr. Bruce Alberts, President Emeritus of the U.S. National Academy of Sciences and Co-chair of the InterAcademy Council: "I am very impressed with the enormous dedication and skill that created this major, highly-original contribution – I know of nothing like it."
From the Editorial by Dr. Joachim Nagel, President, International Union for Physical and Engineering Sciences in Medicine, and past president of the International Federation for Medical and Biological Engineering: "This book provides all the answers and can be highly recommended as the ultimate guide to anyone interested in bioengineering and biotechnology. The book arrives at a crucial time, and catapults bioengineering and biotechnology to the forefront of disciplines and to a rightly held pinnacle of inspiration for engineers, scientists, and technologists."
From the Afterword by Dr. Shu Chien, President, Biomedical Engineering Society and past president of the American Physiological Society and of the American Institute of Medical and Biological Engineering: "...this is truly an outstanding book that is the first of its kind...certainly a pioneering contribution."
Praise for the Book
"Bioengineering and Biotechnology are emerging as distinct disciplines amid the biological revolution and during a period of rapid globalization. These interesting times offer us unprecedented opportunities for professional and personal growth. This book covers many important areas of opportunity, including entrepreneurship, finance, law, and education, with a global perspective. The legacy of our times will include how well we used our rapidly advancing technologies to improve the world around us. This book provides a roadmap for the contributions of Bioengineering and Biotechnology in this quest."
-James E. Moore, PhD, Texas A&M University
"This book will be essential reading for all those seeking career guidance in bioengineering and biotechnology."
-Tony Bradshaw, PhD, Director bioProcessUK - BioIndustry Association (BIA), Chairman, The Royal Academy of Engineering/BIA Life Scientists' Career Seminars
"...the topics [are] quite extensive covering definitions, core curriculum, career opportunities, including a wide range of alternative career pathways as well as social and ethical issues. The material covered is unlike any of the standard publications related to these fields of activity... [the book] can be read at different stages of one's career."
-Joseph D. Bronzino, PhD, Trinity College
"...once I started reading it, [I] could not put it down. In less than three days, I read it all, absorbing the stories and details as if I was consummed by watching a high action movie... The breath and depth of the wisdom is phenomenal, and the stories shared by the writers are moving, inspiring, and shine of intelligence in seizing one's own passion and talents and turning them into stellar professional careers."
-Nathalie Gosset, MS, MBA, Head of Marketing, Alfred Mann Institute for Biomedical Engineering, University of Southern California
"This is a functional book with immediate impact, and is very helpful to those who need and desperately want help in making a career choice."
- Jonathan Newman, Graduate Student in Biomedical Engineering, Georgia Institute of Technology, USA
"This is an exciting undertaking and very well thought through and balanced. I enjoyed very much reading the chapters I have reviewed. Congratulations to all contributors and the editors of this book."
- Gudrun Zahlmann, PhD, Director of Business Development, Siemens Medical Systems, Germany
"I am very excited about this book. As a bioengineering educator, I am always looking for information that can provide guidance for students as they prepare for their careers. The contributors in this book are so enthusiastic about their careers that many of the chapters made me want to switch careers on the spot! I believe that engineering students do not receive enough guidance on alternative career paths. This book will very much help fill the void."
- Judy Cezeaux, PhD, Professor of Biomedical Engineering, Western New England College, Massachusetts, USA
From the reviews of the fourth edition:
"This book is ambitious, incredibly erudite with 22 pages of references, and is indisputably clearly and beautifully written and illustrated. It is perfectly suited to a first course on the science of complexity. Even beginners and young graduate students will have something to learn from this book." (Andre Hautot, Physicalia, Vol. 57 (3), 2005)
"All-in-all, this highly recommended book is a wonderful resource for intuitive basic ideas in the need of rigorous formulation." (Albert A. Mullin, Zentralblatt MATH, vol. 1046, 2004)
"Readers of this book will enjoy Mainzer's exposition, which is based on a tight coupling between classical and historical concepts from Plato and Aristotle to modern, mathematical and physical developments . Every chapter begins with a section designed to orient the reader to the perspective of philosophical developments through the ages pertinent to the topic at hand. The author takes pains to point out essential differences between classical science and the science of complexity. Thinking in Complexity is an outstandingly readable book." (Anutosh Moitra, The Industrial Physicist, August/September, 2004)
"DOCTOR RAT is dazzlingly original, witty and insanely satiric. It is also occasionally quite beautiful. Kotzwinkle's tale is a dizzying montage...from scenes of gross black humor in the experimental lab to idyllic glimpses of the animal kingdom. Designed to shock us into ecological awareness, Kotzwinkle's lab experiments are hair-raising."
--Los Angeles Times
A bloodcurdling novel in the spirit of ANIMAL FARM and 1984, DOCTOR RAT is a trip through a laboratory worthy of a Nazi mad doctor, except this doctor is a wisecracking rodent who could have been played by Groucho Marx. The London Times called DOCTOR RAT, "a splendidly nutty animal Magnificat with echoes of William Blake."
"Mr. Kotzwinkle is a first-rate fabulist."
--The New York Times
New to this Edition:Updated and increased coverage of real time PCR and the mathematics used to measure gene expressionMore sample problems in every chapter for readers to practice concepts
* Provides complete coverage of basic biology of adenoviruses, as well as the construction, propagation and purification of adenoviral vectors
* Introduces common strategies for the development of adenoviral vectors along with cutting-edge methods for their improvement
* Demonstrates noninvasive imaging of adenovirus-mediated gene transfer
* Discusses utility of adenoviral vectors in animal disease models
* Considers Federal Drug Administration regulations for human clinical trials
The book has been conceived to fill the void in existing physician reference materials, and provides a comprehensive review of the theoretical knowledge and scope of pharmacotherapy in individuals who are hooked on a psychoactive substance.
While detailed scientific information is obtainable in other major articles, the book's straightforward format and style, along with its illustrations, will make for easy reading as emphasis is put on information specifically related to drugs that occur most abused in today’s society. The information provided is based on clinical practice rather than pure experimental data, which will give the physician more effective tools useful in their daily practice. Many mechanisms of action of abuse are described in detail and references are provided to direct the reader to further sources for additional information.
As a special feature, the book incorporates uncluttered tables and charts, which result in immediate clarification of the mode of action on the central nervous system and the reason for misuse, thus avoiding usual long and fatiguing text in common reference books. The book aims to give the reader a clear and concise plan on what to do when being faced with an overdose situation.
A well-organized Table of Contents rapidly leads the reader from general pharmacological issues to the specific overdose syndrome and its management. Additionally, significant emphasis is placed on the practical do's and don’ts for physicians, with special reference to the predictive signs of aberrant drug-related behavior and the identification of the drug diverter by using urine drug screening.
Since its discovery in 1953 by Watson and Crick, the DNA double helix has been thought of as the language of God. From that point on, throughout the ensuing decades, research has decoded much of that language, giving scientists a more respectable insight into the paradox of life itself. Now, furthering that insight, Dr. Luksas has determined a means of using that language to address cancer and perhaps other diseases.
Providing a wealth of information on DNA and how it functions in the body, as well as other processes important to the replication of cancerous bodies such as cell respiration and metastasis, Dr. Luksas explains his findings with the common reader in mind.