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Structural and resonance techniques in biological research

  • 476 Pages
  • 0.69 MB
  • 2317 Downloads
  • English

Academic Press , Orlando
Biophy
Statementedited by Denis L. Rousseau.
SeriesPhysical techniques in biology and medicine
ContributionsRousseau, Denis L.
Classifications
LC ClassificationsQH505 .S74 1984
The Physical Object
Paginationxi, 476 p. :
ID Numbers
Open LibraryOL2847237M
ISBN 10012599320X
LC Control Number84009372

Structural and Resonance Techniques in Biological Research discusses the fundamentals and applications of nuclear magnetic resonance, electron spin resonance, Mössbauer spectroscopy, x-ray absorption spectroscopy, macromolecular crystallography, and small-angle x-ray scattering.

Genre/Form: Electronic books: Additional Physical Format: Print version: Rousseau, Denis. Structural and Resonance Techniques in Biological Research. MRI research has generated insights into the neurobiology of ASDs. Structural MRI studies found increased total brain volume and early rapid brain growth.

Alterations in gray and white matter have been consistently identified. Functional MRI research found abnormalities in cortical activation and specialization. Abnormalities of the default-mode network have been found during the Cited by: B.

Sheard, E.M.

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Bradbury, Nuclear magnetic resonance in the study of biopolymers and their interaction with ions and small molecules, Progress in Biophysics and Molecular Biology, /(70), 20, (), ().Cited by: Purchase Nuclear Magnetic Resonance of Biological Macromolecules, Part B, Volume - 1st Edition.

Print Book & E-Book. ISBNPrice: $ Together with Structural and Resonance Techniques in Biological Research, this book marks the introduction of a new series of volumes, Physical Techniques in Biology and Medicine, which is intended to replace a previous treatise, Physical Techniques in Biological Research.

This book uses a case study approach, with the yeast Saccharomyces as the model genetic organism, to explain the theory and practice of molecular genetic analysis. It provides enough information so readers will be able to apply the approach to their own research project.

The first of its kind, Introduction to Biophysical Methods for Protein and Nucleic Acid Research serves as a text for the experienced researcher and student requiring an introduction to the field.

Each chapter presents a description of the physical basis of the method, the type of information that may be obtained with the method, how data.

Description. Spectroscopy in Biology and Chemistry discusses the use of thermal neutron diffraction and inelastic scattering, and the related techniques of x-ray diffraction, Raman and Rayleigh scattering, in investigating biological macromolecules and chemical systems.

The book describes neutron, x-ray and laser spectroscopy; quasielastic scattering in neutron and laser spectroscopy; and interatomic forces, molecular structure.

Biological Magnetic Resonance. Volume 1 Edited by Lawrence J Berliner and Jacques Reuben. pp Plenum Press: New York and London. £ The applications of magnetic resonance techniques to biological macromolecules are growing in number, power and complexity and.

About the authors. About this book. Modern Magnetic Resonance provides a unique and comprehensive resource on up-to-date uses and applications of magnetic Structural and resonance techniques in biological research book techniques in the sciences, including chemistry, biology, materials, food, medicine, pharmaceuticals and marine sciences.

The widespread appeal of MMR methods for revealing information at the molecular and microscopic. Search the world's most comprehensive index of full-text books. My library. Major techniques in structural biology.

The following methods are considered to be of primary importance for experimental, three-dimensional structure determination: X-ray crystallography, X-ray fiber diffraction, electron diffraction, electron microscopy, neutron diffraction and nuclear magnetic resonance (NMR).

Presents technical developments and innovative applications of nuclear magnetic resonance spectroscopy in the study of structure and dynamic properties of biopolymers.

Discusses applications in solution, liquid crystals, solids and mixed environments such as membranes. Coverage includes: Three-dimensional structure determination of biological macromolecules (polypeptides/proteins, DNA, RNA, oligosaccharides) by NMR; New NMR techniques for studies of biological macromolecules.

The three main techniques employed are Bio-Resonance Recognition, Bio-Resonance Comparison, and Sympathetic Vibratory Physics. Specific frequencies for biology is. Over the past two decades, structural magnetic resonance imaging (sMRI) and functional magnetic resonance imaging (fMRI) techniques have been used to study associations between neural activations in the brain and personality traits and other cognitive.

"Nuclear Magnetic Resonance Imaging is best known for its spectacular use in medical tomography. However the method has potential applications in biology, materials science, and chemical physics, some of which have begun to be realized as laboratory NRM spectrometers have been adapted to enable small scale imaging.

NMR microscopy has available a rich variety of contrast including molecular /5(2). Current interests in structural genomics, and the associated need for high through-put structure determination methods, offer an opportunity to examine new nuclear magnetic resonance (NMR) methodology and the impact this methodology can have on structure determination of proteins.

The time required for structure determination by traditional NMR methods is currently long, but improved. This book presents advanced expression technologies for the production of protein complexes.

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Since complexes lie at the heart of modern biology, the expression, purification, and characterization of large amounts of high-quality protein complexes is crucial for the fields of biomedicine, biotechnology, and structural biology.

Structural imaging, which deals with the structure of the brain and the diagnosis of large-scale intracranial disease (such as a tumor), as well as injury. Functional imaging, which is used to diagnose metabolic diseases and lesions on a finer scale (such as Alzheimer’s disease), and also for neurological and cognitive-psychology research.

This book provides an introduction to the underlying theory, fundamentals, and applications of EPR spectroscopy, as well as new developments in the area.

Knowledge of the topics presented will allow the reader to interpret of a wide range of EPR spectra, as well as help them to apply EPR techniques to problem solving in a wide range of areas: organic, inorganic, biological, and analytical.

Paul Schanda, currently a principal investigator in solid-state NMR at the Institute of Structural Biology in Grenoble, is recognized for his achievement in developing solid-state NMR techniques for studying protein dynamics and applying these techniques to understand membrane protein transporters, chaperones, and enzyme complexes.

15 Basic Molecular Biology Techniques its quantitation it has opened up the analysis of cellular and molecular processes to those outside the field of molecular biology. The role of magnetic resonance imaging techniques in the diagnosis, surgical treatment and biological understanding of epilepsy an area that is need of significantly more research (pages: ).

Diffusion imaging can be used to investigate both structural integrity of white matter and connectivity within networks and has, like. Magnetic resonance imaging (MRI) is a versatile and evolving technology for visualizing the structure, function, and metabolism of the living human brain.

All kinds of MRI data can be acquired without exposing subjects to ionizing radiation or radioactive isotopes. Installing the hardware for MRI represents a major capital investment, of approximately £ million.

for understanding the structure and functional relationships of molecular biology. The most significant feature of this book is its clear, up-to-date and accurate explanations of. The Use of Magnetic Resonance Spectroscopy and Magnetic Resonance Imaging in Alcohol Research Bonnie J.

Nagel, Ph.D. and Christopher D. Kroenke, Ph.D. B onnie J. N agel, P h.D., is an assistant professor in the Department of Psychiatry and Behavioral Neuroscience at the Oregon Health & Science University, Portland, Oregon.

Current Research in Structural Biology (CRSB) is a new primary research, gold open access (OA) journal from Elsevier.

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CRSB publishes exclusively original research articles and short communications that cover all aspects of the molecular structure and dynamics of biological macromolecules. CRSB is a peer-reviewed OA journal and upon acceptance all articles are permanently and freely available.

Nuclear Magnetic Resonance Spectroscopy is the only "tool" available for the determination of high-resolution biological molecule structure in solution. This volume includes methods for expeditiously analyzing the vast amount of data produced by the new 3D and 4D NMR techniques and for generating structures from the data and for assessing the.

Chemical shift assignment and structure calculation. The determination of the 3D structure of a protein (41, 42) requires sequence-specific resonance assignment (assignment of each 1 H, 13 C, and 15 N resonance frequency to a specific atom within the protein), obtained by combining the results of several 2D and 3D NMR experiments recorded on uniformly 13 C- and 15 N-enriched.

The content of this volume has been added to the online reference work Encyclopedia of Magnetic Resonance. For further information see Encyclopedia of Magnetic Resonance. This volume contains a historical article covering the development of NMR and ESR from the early beginnings, to the development of protein NMR and the development of MRI.

This is followed by historical articles .Kurt Wüthrich. Magnetic resonance spectroscopy. Birthplace: Aarberg, Switzerland. Gender: Male Race or Ethnicity: White Sexual orientation: Straight Occupation: Chemist. Nationality: Switzerland.

Swiss chemist Kurt Wüthrich has studied molecular structural biology and structural genomics, and developed the nuclear magnetic resonance (NMR) method for determining the Born: There will be discussions on the methods of structure determination, with particular emphasis on macromolecular X-ray crystallography, Nuclear Magnetic Resonance (NMR) methods, homology modeling, and bioinformatics.

You will use molecular graphics tutorials and Internet databases to view and analyze structures.