Name Reactions : A Collection of Detailed Mechanisms and Synthetic Applications
The third edition contains major improvements over the previous edition. In addition to updated references, each reaction is now supplemented with two to three representative examples in synthesis to showcase its synthetic utility. Biographical sketches for the chemists who discovered or developed those name reactions have been included. Furthemore, the subject index is significantly expanded.This is an excellent book for arrow pushing and learning organic name reactions as encountered in graduate school .
Myosins : A Superfamily of Molecular Motors
Application of state-of-the-art cellular and molecular biological, structural biological, genetic, biochemical and biophysical techniques has provided and continues to provide critical information regarding the structure–function relationship; and the cellular roles of various myosins in organisms as diverse as protozoa, yeast, plants and higher animals. The association of myosins with diseases including neurological disorders, immu- deficiencies, cardiomyopathies, hearing and vision loss testify to the importance of understanding the biochemical properties and cellular roles of myosins. The 16 chapters in this volume summarize the tremendous progress made in studying members of the myosin superfamily in recent years and offer critical insight into what future research will yield.
Myocardial Ischemia : From Mechanisms to Therapeutic Potentials
This book is meant to bridge the gap between original literature and textbook reviews. It brings together investigators of various backgrounds who share their expertise in the biology of myocardial ischemia. Each chapter is a self-contained mini-review, but it will soon become apparent to the reader that there is also a common thread: Molecular and cellular cardiology has never been more exciting than now, but ever more exciting times are yet to come.
Myelodysplastic Syndromes
This book summarizes our current knowledge of MDS, from very basic aspects to the clinical management. It provides guidance to the diagnosis, an understanding of disease mechanisms, and a discussion of treatment strategies.
Mycorrhizae : Sustainable Agriculture and Forestry
This book discusses and goes into detail on a number of topics: the molecular basis of nutrient exchange between arbuscular mycorrhizal (AM) fungi and host plants; the role of AM fungi in disease protection, alleviation of soil stresses and increasing grain production; interactions of AM fungi and beneficial saprophytic mycoflora in terms of plant growth promotion; the role of AM fungi in the restoration of native ecosystems; indirect contributions of AM fungi and soil aggregation to plant growth and mycorrhizosphere effect of multitrophic interaction; the mechanisms by which mycorrhizas change a disturbed ecosystem into productive land; the importance of reinstallation of mycorrhizal systems in the rhizosphere is emphasized and their impact on landscape regeneration, and in bioremediation of contaminated soils; Ectomycorrhizae (ECM) and their importance in forest ecosystems and associations of ECM in tropical rain forests function to maintain tropical monodominance; in vitro mycorrhization of micro-propagated plants, and visualizing and quantifying endorhizal fungi; the use of mycorrhizae, mainly AM and ECM, for sustainable agriculture and forestry.
Multiscale Dissipative Mechanisms and Hierarchical Surfaces : Friction, Superhydrophobicity, and Biomimetics
Multiscale Dissipative Mechanisms and Hierarchical Surfaces covers the rapidly developing topics of hierarchical surfaces, roughness-induced superhydrophobicity and biomimetic surfaces. The research in these topics has been progressing rapidly in the recent years due to the advances in the nanosciences and surfaces science and due to potential applications in nanotechnology. The first in its field, this monograph provides a comprehensive review of these subject and presents the background introduction as well as recent and new results in the area.
Multiple Stressors : A Challenge for the Future
This book publishes the Proceedings of the NATO Advanced Research Workshop on Multipollution Exposure and Risk Assessment, Ecotoxiclogical risk from multiple stressors covers any situation where org- isms are exposed to a combination of environmental stressors. These include physical and chemical pollutants as well as other stressors such as parasites and environmental impact (e. g. , climate change or habitat loss). The combi- tion of stressors can result in increased risk to organisms (either additive or synergistic effects) or decreased effects (protective or antagonistic effects). The multiple stressor challenge is an international, multi-disciplinary problem requiring an international, multi-disciplinary approach. The c- rent approach to multiple stressors is to examine one stressor at a time and assume additivity.
Multigenic and Induced Systemic Resistance in Plants
This comprehensive volume consists of a series of up-to-date reviews, each incorporating current models and knowledge related to mechanisms of resistance either expressed constitutively or induced systemically in plants. Each chapter covers a topic related to the phenomenon of plant resistance to fungal and bacterial pathogens, insects, nematodes, viruses or abiotic stress in plants, as well as the application of this knowledge to protect crops now and in the future. Researchers, upper-level undergraduate and graduate students, and those teaching courses in plant physiology, entomology and plant pathology will find this volume a much needed asset.
Multifunctional Barriers for Flexible Structure : Textile, Leather and Paper
The intent of this book is to give a complete overview of the present state of the art of flexible barrier materials such as textile, paper and leather, including methods for barrier evaluation. It will be of interest to readers in industries, consumers, and members of the scientific community. The scope of the field is clearly delineated here for the first time, and it deals with a number of specific topics such as barrier to fire, antibacterial properties, resistance to waves (electrostatic, electromagnetic, acoustics), anti-odor, etc. combined with characterization techniques as well as material nanotechnology.
Multichain Immune Recognition Receptor Signaling : From Spatiotemporal Organization to Human Disease
The central idea of this book is to show that the structural similarity of the MIRRs determines the general principles underlying MIRR-mediated transmembrane signaling mechanisms and also provides the basis for existing and fixture therapeutic strategies targeting MIRRs. The reviews assembled in this book detail the prog-ress in defining and controlling the spatiotemporal organization of key events in immune cell activation. An improved understanding of MIRR-mediated signaling has numerous potential practical applications, fi-om the rational design of drugs and vaccines to the engineering of cells for biotechnological purposes.
Multi-Agent and Multi-Agent-Based Simulation ; Joint Workshop MABS 2004
The aim of the workshop was to provide a forum for work in both appli- tions of multi-agent-based simulation and the technical challenges of simulating large multi-agent systems (MAS). There has been considerable recent progress in modelling and analyzing multi-agent systems, and in techniques that apply MAS models to complex real-world systems such as social systems and organi- tions. Simulation is an increasingly important strand that weaves together this work. In high-risk, high-cost situations, simulations provide critical cost/benefit leverage, and make possible explorations that cannot be carried out in situ: – Multi-agent approaches to simulating complex systems are keytools in interdisciplinary studies of social systems. Agent-based social simulation (ABSS) research simulates and synthesizes social behavior in order to understand real social systems with properties of self-organization, scalability, robustness, and openness. – In the MAS community, simulation has been applied to awide range of MAS research and design problems, from models of complex individual agents - ploying sophisticated internal mechanisms to models of large-scale societies of relatively simple agents which focus more on the interactions between agents.
Mouse Models of Human Blood Cancers : Basic Research and Pre-clinical Applications
Although it remains an open question among some people whether mice and humans are similar in disease development, the laboratory mouse has emerged as the preeminent animal model for human diseases. This is underscored by the recently completed mouse and human genome projects, which have revealed that mice and humans share the vast majority of their genes, and thus get many of the same diseases, and for the same reasons. Emphasizing why mouse models are valuable in vivo systems for understanding disease mechanisms and developing therapeutic strategies for human blood cancers, "Mouse Models of Human Blood Cancers: Basic Research and Pre-clinical Applications," edited by Shaoguang Li, aims on presenting thorough analyses of the pathological features and the molecular bases of several major types of blood cancer and to describe translational research using mouse cancer models.
Morse Theoretic Methods in Nonlinear Analysis and in Symplectic Topology
It covered an ample spectrum of subjects which are re ected in the present volume: Morse theory and related techniques in in nite dim- sional spaces, Floer theory and its recent extensions and generalizations, Morse and Floer theory in relation to string topology, generating functions, structure of the group of Hamiltonian difieomorphisms and related dynamical problems, applications to robotics and many others. We thank all our main speakers for their stimulating lectures and all p- ticipants for creating a friendly atmosphere
Molecular Targeting in Oncology
In Molecular Targeting in Oncology, authors present an overview of the development of targeted therapies for the treatment of cancer with an emphasis on clinical application. The volume covers the complexity of the rapidly developing area of targeted therapies for the treatment of patients with cancer and is structured in a way so readers may begin with chapters that most interest them and work through the rest of the chapters in the order of their choice. The volume is divided into five sections that cover the most important elements of drug development. The first section focuses on approaches using targeted therapies to inhibit cell growth. The second section describes how clinicians are evaluating targeted therapies in specific organ systems. The third section illustrates how various classes of pharmacologic and immunologic agents are developed for individual molecular targets. The fourth section details new drugs that have novel mechanisms of action. The final section looks to the future of targeted therapeutics and includes chapters on appropriate patient selection, use of combination therapy, dealing with tumor cell resistance, and more. Comprehensive and cutting-edge, Molecular Targeting in Oncology is an essential reference for those working in the field.
Molecular recognition in pharmacology
Traces the behavior of the drug substance, starting from the initial pre-contact stage, and ending with the formation of the complex. Molecular recognition lies in the foundation of every life form and includes many mysteries. Currently, studies on this topic in pharmacology are limited to determining the properties of complexes of medicinal substances (drugs) with specific (complementary) biomolecules: receptors, enzymes, ion channels etc. The results present the mechanisms preventing drugs from such non-specific binding. This direction is very fruitful, although the phenomenon of molecular recognition is far wider.
Molecular Paradigms of Infectious Disease : A Bacterial Perspective
This comprehensive volume, written by leading authors in the field, provides a fundamental understanding of the complex cellular and molecular processes that are important for bacterial virulence and the infectious disease process. Written in a clear and engaging manner, the book highlights key techniques and methodologies that have driven recent discoveries in bacterial pathogenesis, major structures and mechanisms in bacteria that are important for the pathogenesis of these organisms, the regulation of these virulence determinants by global regulators, and bacterial biowarfare agents. Molecular Paradigms of Infectious Disease: A Bacterial Perspective is an ideal book for students, microbiologists, immunologists and scientists and researchers of bacterial pathogenesis.
Molecular Pain
This book focus on molecular and synaptic mechanisms for pain transmission, modulation and plasticity. Unlike traditional textbooks about pain, this book covers recent progress in neuroscience and relates these developments to the basic mechanisms of chronic pain. The book also discusses current pain medicine and alternative pain treatments such as acupuncture.
Molecular microbiology of heavy metals
Molecular Microbiology of Heavy Metals includes chapters on allocation of metals in cells, metal transporter, storage and metalloregulatory proteins, cellular responses to metal ion stress, transcription of genes involved in metal ion homeostasis, uptake of essential metals, metal efflux and other detoxification mechanisms. Also discussed are metal bioreporters for the nanomolar range of concentration and tools to address the metallome. Chapters in the second part cover specific metals such as Fe, Mn, Cu, Ni, Co, Zn and Mo as key nutrient elements and Ag, As, Cd, Hg and Cr as toxic elements.
Molecular Mechanisms of Synaptogenesis
Molecular Mechanisms of Synaptogenesis is a compilation of recent exciting findings that summarizes the ever-expanding knowledge of how neuronal contacts develop in the normal brain and how their functions are affected in mental disorders. In the last decade, advances in molecular and cellular biology, combined with the development of sophisticated fluorescence microscopy tools to visualize synapses in live neurons, have revealed many intriguing and unexpected findings regarding the dynamics of synapse formation. Studies by a number of researchers have identified several critical protein components of synapses and shown the time course of their arrival at the synapse. Several molecules serve to hold the synaptic contacts between nerve cells and regulate their function.
Molecular Mechanisms of Plant and Microbe Coexistence
Molecular Mechanisms of Plant and Microbe Coexistence presents studies on the complex and manifold interactions of plants and microbes at the population, genomics and proteomics level. The role of soil microbial diversity in enhancing plant health and plant microbe beneficial symbioses is discussed. Microbial communities are shown in the light of evolution. Main topics include genome coexistence and the functional genomics and proteomics of plant-associated microbes, which could form the basis for new environmentally benign strategies to combat infectious plant diseases and regulate plant growth. Further chapters focus on the role of signaling during the different stages of plant microbe coexistence, in symbiotic or pathogenic relationships, in quorum sensing and plant viral infections. Methods for studying the interactions in the root zone complement the book, which will certainly be of relevance in the practical application to agriculture, food security and for maintaining the balance of our ecosystems.



















