Atomic Force Microscopy for Nanoscale Biophysics: From Single Molecules to Living Cells summarizes the applications of atomic force microscopy for the investigation of biomolecules and cells.
Volume 69 in the internationally acclaimed Advances in Clinical Chemistry contains chapters authored by world renowned clinical laboratory scientists, physicians and research scientists.
This text provides the reader with tools necessary to study biological and bio-inspired flows, all the while developing an appreciation for their evolutionary and engineering constraints.
Advances in Clinical Chemistry, Volume 73, the latest installment in this internationally acclaimed series, contains chapters authored by world-renowned clinical laboratory scientists, physicians, and research scientists.
This 2 volume 4-part set includes extensive discussions of scattering techniques (light, neutron and X-ray) and related fluctuation and grating techniques that are at the forefront of this field.
The Enzymes, Volume 47, highlights new advances in the field, with this new volume presenting interesting chapters on The Multipurpose Family of Oxidases, Vanillyl alcohol oxidase, Choline oxidases, Aryl alcohol oxidase, D- and L-amino acid oxidases, Sugar oxidases, Phenolic Compounds hydroxylases, Baeyer-Villiger Monooxygenases, Flavin-dependent halogenases, Flavin-dependent dehalogenases, Styrene Monooxygenases, Bacterial luciferases, Cellobiose Dehydrogenases, Prenylated flavoenzymes, Ene-reductases, Flavoenzymes in Biocatalysis.
Hormones, Fourth Edition provides a report on the field of human hormones viewed in light of our current understanding of cellular and subcellular architecture, along with the molecular details of their modes of action.
This book offers the first comprehensive coverage of microwave medical imaging, with a special focus on the development of novel devices and methods for different applications in both the diagnosis and treatment of various diseases.
This fully updated edition provides the most recent advances in cancer cell signaling knowledge combined with some discussion of the current challenges and prospects in cancer therapy.
This volume discusses the latest analytical approaches used to sample defined molecular populations of metabolites via functional group derivatization, specialized chromatographic methods, and ionization techniques.
This detailed volume is devoted to the recent development of quantitative experiments and computational methods driving new transforming growth factor beta (TGF-) and other cell signaling knowledge.
This thorough book explores some of the most important methods and concepts affecting the quantitative analysis of the transport, targeting, and disposition of chemicals within cells, which in turn impact the macroscopic pharmacokinetics of chemical agents in the whole organism.
Atomic Force Microscopy for Nanoscale Biophysics: From Single Molecules to Living Cells summarizes the applications of atomic force microscopy for the investigation of biomolecules and cells.
This volume looks at the methodology and techniques used by experts to study how certain molecules function in specific locations, and their temporal patterns.
This detailed collection explores techniques involved in the main strategies of nanopore sensing, such as translocation, analyte trapping, and interactions with external binding sites.
This thorough book explores some of the most important methods and concepts affecting the quantitative analysis of the transport, targeting, and disposition of chemicals within cells, which in turn impact the macroscopic pharmacokinetics of chemical agents in the whole organism.
Laser Scanning Microscopy and Quantitative Image Analysis of Neuronal Tissue brings together contributions from research institutions around the world covering pioneering applications in laser scanning microscopy and quantitative image analysis and providing information about the power and limitations of this quickly developing field.
This volume explores open-source based image analysis techniques to provide a state-of-the-art collection of workflows covering current bioimage analysis problematics, including colocalization, particle counting, 3D structural analysis, ratio imaging and FRET quantification, particle tracking, high-content screening or machine learning.
In Quantum Dots: Applications in Biology, Second Edition, expert researchers in the field detail consolidated approaches as well as new trends in the field.
This volume presents new developments in the field of mass spectrometry imaging, covering imaging, software, data analysis, new instrumentations, and new methodological approaches.
This book aims to provide examples of applications of atomic force microscopy (AFM) using biological samples, showing different methods for AFM sample preparation, data acquisition and processing, and avoiding technical problems.
In the past several years significant attention has been given to the analysis of the properties and functions of lateral microdomains (rafts) in biological membranes.
In this revised and expanded second edition, Electron Microscopy: Methods and Protocols presents the newest technology in electron microscopy, while maintaining the practicality and accessibility of the acclaimed first edition.
The basic principle of electron crystallography is to calculate a 3D density map by combining the amplitudes obtained from electron diffraction patterns with the experimental phases calculated from images of two-dimensional crystals of membrane or soluble proteins.
With its ability to explore the surface of the sample by means of a local scanning probe and its use of dedicated software allows to be visualize results, atomic force microscopy (AFM) has revolutionized the study of the smallest aspects of life.
In the ten years since the publication of the first edition, great advances in fluorescent labeling, optics, and sample preparation have significantly improved the imaging capability of microscopy, allowing for a continual refinement of our understanding of the cytoskeleton as a dynamic synergy of components.
