Immunoinformatics
Immunoinformatics is an emerging subdiscipline of bioinformatics. It utilizes mathematics, information science, computer engineering, genomics, proteomics and immunological methods to bridge immunology and informatics. Similar to bioionformatics which became a driving force in genome research, immunoinformatics enables data-driven research strategies and systems approaches that aim at understanding the networks regulating the immune system. Considering the breath of topic, Immunoinformatics was composed to provide a cross-section of research ranging from data integration, epitope predictions to systems level applications. In ten chapters experts in the field introduce and discuss research strategies for immunologists and bioinformaticians who wish to endeavour existing and new approaches to gain insight into the workings of the immune system.
Immunogenicity of Biopharmaceuticals
This book is intended to give a broad overview of the current state-of-the-art regarding the immune response to biopharmaceuticals. The chapters range from an overview of the immune system and factors that may trigger the immune system, via detection of antibodies and clinical implications, to various case examples and the regulatory view on immunogenicity.
Immunogenetics: Methods and Protocols
Explores techniques for working in the field of immunogenetics, i.e. fundamental and translational research into the adaptive immune receptor repertoire. Many chapters are dedicated to lab protocols, bioinformatics, and immunoinformatics analysis of high-resolution immunome analysis, exemplified by numerous applications. Additionally, the newest technological variations on these protocols are discussed, including non-amplicon, single-cell, and cell-free strategies. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Immunogenetics of Autoimmune Disease
Utoimmunity is the downstream outcome of a rather extensive and coordinated series of events that include loss of self-tolerance, peripheral lymphocyte Aactivation, disruption of the blood-systems barriers, cellular infiltration into the target organs and local inflammation. Cytokines, adhesion molecules, growth factors, antibodies, and other molecules induce and regulate critical cell functions that perpetuate inflammation, leading to tissue injury and clinical phenotype. The nature and intensity of this response as well as the physiological ability to restore homeostasis are to a large extent conditioned by the unique amino acid sequences that define allelic variants on each of the numerous participating mol ecules. Therefore, the coding genes in their germline configuration play a primary role in determining who is at risk for developing such disorders, how the disease progresses, and how someone responds to therapy. Although genetic components in these diseases are clearly present, the lack of obvious and homogeneous modes of transmission has slowed progress by prevent ing the full exploitation of classical genetic epidemiologic techniques. Furthermore, autoimmune diseases are characterized by modest disease risk heritability and m- tifaceted interactions with environmental influences. Yet, several recent discoveries have dramatically changed our ability to examine genetic variation as it relates to human disease. In addition to the development of large-scale laboratory methods and tools to efficiently recognize and catalog DNA diversity, over the past few years there has been real progress in the application of new analytical and data-manage ment approaches
Immunobiology of natural killer cell receptors
Natural Killer (NK) cells are large granular lymphocytes of the innate immune system. They are widespread throughout the body, being present in both lymphoid organs and non-lymphoid peripheral tissues. NK cells are involved in direct innate immune reactions against viruses, bacteria, parasites and other triggers of pathology, such as malignant transformation, all of which cause stress in affected cells. Importantly, NK cells also link the innate and adaptive immune responses, contributing to the initiation of adaptive immune responses and executing adaptive responses using the CD16 FcgRIIIA immunoglobulin Fc receptor. Such responses are mediated through two major effector functions, the direct cytolysis of target cells and the production of cytokines and chemokines. The authors focus here on the nature of recognition events by NK cells and address how these events are integrated to trigger these distinct and graded effector functions.
Immunity boosting medicinal plants of the Western Himalayas
Presents a comprehensive guide to traditional immunity-boosting medicinal plants of the Himalayas, their traditional uses, phytochemistry, pharmacology, diversity, conversation, biotechnology, toxicology, as well as future prospective. All the chapters cover the latest advances in ethnobotany, phytochemistry, biochemistry, and biotechnology.
Immunity against mucosal pathogens
This book will provide the readers in the areas of vaccinology, virology, bacteriology, epidemiology, immunology and mucosal immunology within academia (undergraduate, graduate, post doctoral fellows and professors), as well as preclinical and clinical scientists in vaccine and drug industries a thorough appreciation of the mucosal immune system and its importance in protecting humans against mucosal pathogens.
Immune-Mediated Diseases : From Theory to Therapy
Includes contributions from the speakers of the Second IMD Congress (September 10-15, 2007; Moscow, Russia) who are eager to share some of the academic and clinical enthusiasm that defines the IMD meetings.
Immune regulation and immunotherapy in autoimmune disease
Assembles the insights and experience of over twenty experts and thought leaders in the field of autoimmune disease and immunotherapy. These discussions represent some of the newest concepts in autoimmune mechanisms and an array of new treatments that would have been considered science fiction only two decades ago. This book provides a wide-ranging review of two main arenas of current research: that of autoimmune mechanisms of disease and that of the latest developments in immunotherapy, with an emphasis upon multiple sclerosis.
Immune receptors : Methods and protocols
Explores immune cell receptors that are used in the detection of microbes, either by binding directly to non-self molecules or through indirectly sensing microbe-associated cellular disturbances. The covers methods for studying receptor-ligand interactions at both molecular and cellular levels; methods to create and characterize novel antibody reagents; and methods to characterize the molecular processes that lead to adaptive receptor maturation. This book also contains chapters that look at high-throughput strategies that describe the diversity of immune receptors and cells. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Immune mediators in cancer : Methods and protocols
Provides a comprehensive collection of classic and cutting-edge methodologies as well as bioinformatics and genome-editing approaches that are used to quantify immune mediators and analyze their function and biological activity in cancer cells and tissues. Beginning with a section on the detection of immune mediators in samples, the volume continues with sections covering cytokine bioassays, the expression and regulation of immune mediators in cancer cells, and methods to navigate the enormous datasets created by modern DNA and RNA sequencing and proteomic technology. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Immune Mechanisms in Inflammatory Bowel Disease
Immune Mechanisms in Inflammatory Bowel Disease is a highly, concise update of the most recent advances in the immunobiology, genetics and microbiology related to Inflammatory Bowel Disease. This book broadly treats the topics that lead to understanding of the pathogenesis of this disease in an organized, systematic approach.
Immobilisation of DNA on Chips II
DNA chips are gaining increasing importance in different fields ranging from medicine to analytical chemistry with applications in the latter in food safety and food quality issues as well as in environmental protection. In the medical field, DNA chips are frequently used in arrays for gene expression studies to identify diseased cells due to over- or under-expression of certain genes, to follow the response of drug treatments, or to grade cancers), for genotyping of individuals, for the detection of single nucleotide polymorphisms, point mutations, and short tandem reports, or moreover for genome and transcriptome analyses in the quasi post-genomic sequencing era. Furthermore, due to some unique properties of DNA molecules, self-assembled layers of DNA are promising candidates in the field of molecular electronics.the main focus of these two volumes is on the immobilization chemistry, considering the various aspects of the immobilization process itself, since different types of nucleic acids, support materials, surface activation chemistries and patterning tools are of key concern.
Immobilisation of DNA on Chips I
the main focus of these two volumes is on the immobilization chemistry, considering the various aspects of the immobilization process itself, since different types of nucleic acids, support materials, surface activation chemistries and patterning tools are of key concern.the focus of the major part of the chapters lies on the coupling chemistry used for DNA immobilization. Successful immobilization techniques for DNA appear to either involve a multi-site attachment of DNA (preferentially by electrochemical and/or physical adsorption) or a single-point attachment of DNA (mainly by surface activation and covalent immobilization or (strept)avidin-biotin linkage).
Immigration Policy and the Labor Market : The German Experience and Lessons for Europe
German and European immigration policies have only recently begun to cope with the inevitable: growing labor demand in the face of high unemployment and a shrinking labor force due to demographic change. Despite the implementation of Germany's first immigration act and several European initiatives towards legal harmonization at the EU level, an actively controlling immigration policy, which would be needed to master the challenges ahead, is not yet in sight. Against this background, the book draws conclusions from the German history of immigration policy. It analyzes the country's future demand for immigration and develops an economic model for the effective selection and integration of labor migrants that could provide the foundation for a joint European immigration strategy.
Immersive Audio Signal Processing
This text introduces graduate students and researchers to the basics of digital signal processing relevant to audio/acoustics and psychoacoustics and a variety of topics and latest results in immersive audio processing research.It Covers relevant background material adequately .Topics include immersive audio synthesis and rendering, multichannel room equalization, audio selective signal cancellation, signal processing for audio applications, surround sound processing, psychoacoustics and its incorporation in audio signal processing algorithms for solving various problems Real-world measurements depicted in the book demonstrate efficiency and power of the various solutions presented
Immediate Early Genes in Sensory Processing, Cognitive Performance and Neurological Disorders
This book reviews and details experiments and theories that challenge the reader to expand their view on how IEG research is currently being used to advance our understanding of static and active brain circuits, enabling the processing, acquisition and storage of new information in healthy systems. In addition, we explore roles of IEGs in clinical neuropathology, with potential utility in molecular modeling, to highlight, on a go-forward basis, candidate mechanisms for novel targets in clinical intervention.
Immanent Realism : An Introduction to Brentano
A set of knotty questions are implied in the very title of Brentano's work "Psychology from an empirical standpoint". To solve them, Albertazzi guides us systematically through Brentano's life and works, investigating into the inherent complexity of both his view of mental life and the related methodology. In so doing, she discloses a number of threads into the open texture of modern philosophy of mind." Lia Formigari, Ordinary professor of Philosophy of Language, La Sapienza, Rome, Italy
Imaging Techniques in Dental Radiology : Acquisition, Anatomic Analysis and Interpretation of Radiographic Images
This book is an up-to-date guide to the performance and interpretation of imaging studies in dental radiology. The aim is to equip the reader with all the information required in order to perform imaging effectively and safely.
Imaging planetario : Guida all’uso della webcam = Planetary Imaging : Guide to using the webcam
In this book, Martin Mobberley introduces the amateur to the use of webcams and digital image processing, while providing detailed tips for shooting the Sun, Moon and planets. Each object, with its specific shooting and processing techniques, is treated in a separate chapter. Through the images in this book, the amateur will be able to realize what can be done by applying a webcam to your telescope!



















