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Welcome to Hell World
When Luke O’Neil isn’t angry, he’s asleep. When he’s awake, he gives vent to some of the most heartfelt, political and anger-fueled prose to power its way to the public sphere since Hunter S. Thompson smashed a typewriter’s keys. Welcome to Hell World is an unexpurgated selection of Luke O’Neil’s finest rants, near-poetic rhapsodies, and investigatory journalism. Racism, sexism, immigration, unemployment, Marcus Aurelius, opioid addiction, Iraq: all are processed through the O’Neil grinder. He details failings in his own life and in those he observes around him: and the result is a book that is at once intensely confessional and an energetic, unforgettable condemnation of American mores. Welcome to Hell World is, in the author’s words, a “fever dream nightmare of reporting and personal essays from one of the lowest periods in our country in recent memory.” It is also a burning example of some of the best writing you’re likely to read anywhere.
Gene Therapy Protocols
Efforts in gene therapy have grown dramatically in recent years. Basic research as well as clinical activity have made exciting progress and are beg- ning to offer renewed hope that gene therapy may be able to deliver novel approaches for the treatment of inherited as well as such acquired diseases as cardiovascular disease and cancer. With the sequencing of the human genome complete, we now have a comprehensive catalog of genes that further expands the potential role of gene therapy into such new fields as tissue engineering. Central to gene therapy is the process of gene transfer; thus, advances in the technology of gene transfer are at the heart of this field’s progress. Numerous technologies, based on a variety of methods (e.g., viral-mediated, physical/ chemical), have been developed to achieve gene transfer. Some of the earliest methods, such as recombinant retroviruses, are still widely used, have undergone significant improvements, and have given rise to new vectors based on lentiviruses.
Human Airway Inflammation
Rubor (redness), tumor (swelling), calor (heat), and dolor (pain) are the classical signs of inflammation. These features are obvious in the skin, where injury or disease causes flare, wheal, and painful burning sensations. Vasodi- tation underlies the flare and heat, plasma exudation the swelling, and acti- tion of sensory nerves relays pain. In chronic conditions, skin biopsies show inflammatory cell infiltrate. Inflammation is not unique to the skin and contr- utes to disease and repair processes in other organ systems in the body. From the viewpoint of this volume, lung inflammation is now recognized as central to the pathophysiology of a number of severe respiratory conditions, the two ...
E. coli
The study of the pathogenesis of Shiga toxin-producing Escherichia coli (STEC) infections encompasses many different disciplines, including clinical microbiology, diagnostics, animal ecology, and food safety, as well as the cellular microbiology of both bacterial pathogenesis and the mechanisms of toxin action. E. coli: Shiga Toxin Methods and Protocols aims to bring together a number of experts from each of these varied fields in order to o- line some of the basic protocols for the diagnosis and study of STEC pat- genesis. We hope that our book will prove a valuable resource for the clinical microbiologist as well as the cellular microbiologist. For the clinical microbiologist, our aim is to detail a number of current protocols for the detection of STEC in patient samples, each of which have their own advantages. Chapter 1 provides an introduction into the medical significance of STEC infections. Chapters 2–7 follow with protocols for the diagnosis and detection of STEC bacteria in patient and animal samples.
Haemophilus influenzae Protocols
In HaemophilusiInfluenzae Protocols, leading research scientists and infectious disease specialists detail in a readily reproducible format the major molecular and immunological techniques for exploring the pathogenicity of H. influenzae. Described with step-by-instructions to ensure robust and successful experimental results, the techniques cover plasmid analysis, proteomics, genomics, DNA array technology, gene expression, mutagenesis (transposon and nontransposon), and structural analysis. These methods illuminate how the bacterium causes disease, as well as how best to develop novel vaccines and antibiotics against the organism.
Peroxiporins
- Provides a brief history of the discovery and characterization of peroxiporins - Reviews key findings on hydrogen peroxide transport across biological membranes - Discusses the cartography of redox signaling in crowded cells - Includes lavish illustrations and comprehensive images to facilitate teaching - Highlights recent findings, outstanding controversies and open questions
Nanoarchitectonics for Brain Drug Delivery
This book discusses basics of brain diseases and the role of nanobiotechnology in existing treatment options for neurodegenerative disorders. It begins with an overview of brain diseases and the need for novel drug-delivery approaches. It highlights the current route for the intranasal advanced drug-delivery systems for brain diseases. It also discusses innovative categories of drug-delivery systems, including mesoporous silica nanoparticles, polymeric nanocarriers, and lipid-based nanocarriers through multi-responsive DDSs and their implications in brain disorders. Features: Includes an overview of brain diseases and highlights the need for novel drug-delivery approaches Focuses on theoreti...
Bone Research Protocols
The last decade has seen a tremendous advance in our understanding of bone biology. The genes responsible for the majority of rare inherited bone disorders have been identified and much progress has been made in the identification of genes in polygenic disorders such as Paget’s disease and complex multigene diseases such as osteoporosis. Transgenic technology has identified further genes, sometimes unexpectedly, with profound effects on bone. This wealth of new genetic information will undoubtedly lead to extensive cell biological studies to understand the mechanisms by which these gene products affect bone mass and bone strength. In Bone Research Protocols a catalogue of protocols has been assembled to perform such mechanistic studies. In the tradition of the Methods in Molecular Medicine series, the chapters are practical laboratory protocols that should enable the reader to carry out the techniques from scratch. To our knowledge this is the first time such a truly practical manual on well-established bone methods has been assembled, and this volume aims to be complementary to and follow on from the more theoretical Methods in Bone Biology, edited by Arnett and Henderson (1).
Endotoxins: Structure, Function and Recognition
Endotoxins are potentially toxic compounds produced by Gram-negative bacteria including some pathogens. Unlike exotoxins, which are secreted in soluble form by live bacteria, endotoxins are comprised of structural components of bacteria. Endotoxins can cause a whole-body inflammatory state, sepsis, leading to low blood pressure, multiple organ dysfunction syndrome and death. This book brings together contributions from researchers in the forefront of these subjects. It is divided into two sections. The first deals with how endotoxins are synthesized and end up on the bacterial surface. The second discussed how endotoxins activate TLR4 and, in turn, how TLR4 generates the molecular signals leading to infectious and inflammatory diseases. The way endotoxins interact with the host cells is fundamental to understanding the mechanism of sepsis, and recent research on these aspects of endotoxins has served to illuminate previously undescribed functions of the innate immune system. This volume presents a description of endotoxins according to their genetic constitution, structure, function and mode of interaction with host cells.
Global Brain
"As someone who has spent forty years in psychology with a long-standing interest in evolution, I'll just assimilate Howard Bloom's accomplishment and my amazement."-DAVID SMILLIE, Visiting Professor of Zoology, Duke University In this extraordinary follow-up to the critically acclaimed The Lucifer Principle, Howard Bloom-one of today's preeminent thinkers-offers us a bold rewrite of the evolutionary saga. He shows how plants and animals (including humans) have evolved together as components of a worldwide learning machine. He describes the network of life on Earth as one that is, in fact, a "complex adaptive system," a global brain in which each of us plays a sometimes conscious, sometimes ...
