Understanding temporal integration by the brain is expected to be among the premier topics to unite systems, cellular, computational, and cognitive neuroscience over the next decade.
Standing at the forefront of neurogenetic medicine, this reference supplies the tools and information required by clinicians to become familiar with modern neurogenetic approaches and apply the data gleaned from these technologies to the diagnosis and treatment of neurogenetic disorders, as well as traditionally non-genetic conditions such as Parki
This book seeks to represent the main concepts and theories related to psychoneuroimmunology with the aim of their application in clinical settings and formation of novel theories to further elucidate the mutual connection of the psyche and the physiology of humans' body.
Edited by a stellar team of scientists compiling more than 120 papers into a single tome, the XIth Annual International Symposium on Amyloidosis represents the most important review of the state-of-the-science and future directions of the field.
This book seeks to represent the main concepts and theories related to psychoneuroimmunology with the aim of their application in clinical settings and formation of novel theories to further elucidate the mutual connection of the psyche and the physiology of humans' body.
Containing a comprehensive collection of convenient and quantitative methods for studying centrosomes, spindle pole bodies and related organelles, this text is a valuable resource for researchers and others interested in studying the role of these organelles in cell replication.
Current research suggests that neurodegenerative diseases such as Alzheimer's, Parkinson's, Huntington's, and Creutzfeldt-Jacob may be linked to disorders in protein shape referred to as protein misfolding.
Oxidative Stress and Age-Related Neurodegeneration brings together researchers from a variety of fields to compare normal aging and disease-related neurodegeneration in terms of susceptibility to and effects of oxidative stress.
Based on the authors' groundbreaking research, Automated EEG-Based Diagnosis of Neurological Disorders: Inventing the Future of Neurology presents a research ideology, a novel multi-paradigm methodology, and advanced computational models for the automated EEG-based diagnosis of neurological disorders.
The handling and analysis of data generated by proteomics investigations represent a challenge for computer scientists, biostatisticians, and biologists to develop tools for storing, retrieving, visualizing, and analyzing genomic data.
Neurons: Methods and Applications for the Cell Biologist lays out numerous simple techniques for growing and carrying out experiments with many varieties of neurons.
Regeneration Potential in Plants delves into the intricate world of plant regeneration, exploring the biological and molecular mechanisms that enable plants to regenerate under different conditions.
Exogenous Priming and Engineering of Plant Metabolic and Regulatory Genes: Stress Mitigation Strategies in Plants provides insights into metabolic adjustment, their regulation, and the regulatory networks involved in plants responding to stress situations.
A complete background to concepts and principles of behavioral genetics, Neurobehavioral Genetics: Methods and Applications, Second Edition features a broad spectrum of the most current techniques in neurobehavioral genetics in a single source.
Computational models of neural networks have proven insufficient to accurately model brain function, mainly as a result of simplifications that ignore the physical reality of neuronal structure in favor of mathematically tractable algorithms and rules.
A comprehensive and groundbreaking collection of ideas for plant improvement Most of the world's supply of legumes is cultivated under adverse conditions that make this commercially important crop susceptible to the vagaries of nature and damaging stresses.
Machine Learning Models and Architectures for Biomedical Signal Processing presents the fundamental concepts of machine learning techniques for bioinformatics in an interactive way.
Since the first TRP ion channel was discovered in Drosophila melanogaster in 1989, the progress made in this area of signaling research has yielded findings that offer the potential to dramatically impact human health and wellness.
Although neural modeling has a long history, most of the texts available on the subject are quite limited in scope, dealing primarily with the simulation of large-scale biological neural networks applicable to describing brain function.
Microbiota-Gut-Brain Axis and CNS Disorders: Recent Progress and Perspectives on Human Disease summarizes the main findings on gut-brain axis in different types of CNS disorders, providing a complete overview of the field.
Pathology of the Developing Mouse provides, in so far as feasible, one complete reference on the design, analysis, and interpretation of abnormal findings that may be detected in developing mice before and shortly after birth.
Microbiota-Gut-Brain Axis and CNS Disorders: Recent Progress and Perspectives on Human Disease summarizes the main findings on gut-brain axis in different types of CNS disorders, providing a complete overview of the field.
With high-quality genome sequences for the important and ubiquitous Aspergilli now available, increased opportunities arise for the further understanding of its gene function, interaction, expression, and evolution.
This book focuses on the most recent developments in bioremediation techniques, exploring how microorganisms can break down different pollutants and the future potential of bioremediation to reduce global pollution levels.
