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Computational Chemistry Methodology in Structural Biology and Materials Sciences provides a selection of new research in theoretical and experimental chemistry, focusing on topics in the materials science and biological activity. Part 1, on Computational Chemistry Methodology in Biological Activity, of the book emphasizes presents new developments in the domain of theoretical and computational chemistry and its applications to bioactive molecules. It looks at various aspects of density functional theory and other issues. Part 2, on Computational Chemistry Methodology in Materials Science, presents informative new research on computational chemistry as applied to materials science. The wide range of topics regarding the application of theoretical and experimental chemistry and materials science and biological domain will be valuable in the context of addressing contemporary research problems.
Published continuously since 1944, the Advances in Protein Chemistry and Structural Biology serial has been a continuous, essential resource for protein chemists. Covering reviews of methodology and research in all aspects of protein chemistry, including purification/expression, proteomics, modeling and structural determination and design, each volume brings forth new information about protocols and analysis of proteins while presenting the most recent findings from leading experts in a broad range of protein-related topics. This volume features articles on Computational Chemistry methods in Structural Biology. Essential resource for protein chemists This volume features articles on Computational Chemistry methods in Structural Biology
Computational chemistry is a science that allows researchers to study, characterize and predict the structure and stability of chemical systems. In other words: studying energy differences between different states to explain spectroscopic properties and reaction mechanisms at the atomic level. This field is gaining in relevance and strength due to field applications from chemical engineering, electrical engineering, electronics, biomedicine, biology, materials science, to name but a few. Structural Analysis using Computational Chemistry arises from the need to present the progress of computational chemistry in various application areas. Technical topics discussed in the book include: • Quantum mechanics and structural molecular study (AM1)• Application of quantum models in molecular analysis• Molecular analysis of insulin through controlled adsorption in hydrogels based on chitosan• Analysis and molecular characterization of organic materials for application in solar cells• Determination of thermodynamic properties of ionic liquids through molecular simulation
Computational and theoretical tools for understanding biological processes at the molecular level is an exciting and innovative area of science. Using these methods to study the structure, dynamics and reactivity of biomacromolecules in solution, computational chemistry is becoming an essential tool, complementing the more traditional methods for structure and reactivity determination. Modelling Molecular Structure and Reactivity in Biological Systems covers three main areas in computational chemistry; structure (conformational and electronic), reactivity and design. Initial sections focus on the link between computational and spectroscopic methods in the investigation of electronic structure. The use of Free Energy calculations for the elucidation of reaction mechanisms in enzymatic systems is also discussed. Subsequent sections focus on drug design and the use of database methods to determine ADME (absorption, distribution, metabolism, excretion) properties. This book provides a complete reference on state of the art computational chemistry practised on biological systems. It is ideal for researchers in the field of computational chemistry interested in its application to biological systems.
This book reviews a variety of methods in computational chemistry and their applications in different fields of current research. Ab initio methods and regression analyses are discussed with special focus on their application to investigate chemical structures as for example dyes or drug compounds. Further topics are the use of computational methods in the modeling of spectroscopic data or to study reaction mechanisms.
Computational Molecular modelling in Structural Biology, Volume 113, the latest release in the Advances in Protein Chemistry and Structural Biology, highlights new advances in the field, with this new volume presenting interesting chapters on charting the Bromodomain BRD4: Towards the Identification of Novel Inhibitors with Molecular Similarity and Receptor Mapping, and Computational Methods to Discover Compounds for the Treatment of Chagas Disease. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Advances in Protein Chemistry and Structural Biology series Updated, with the latest information on Computational Molecular Modelling in Structural Biology
This book presents contributions on a wide range of computational research applied to fields ranging from molecular systems to bulk structures. This volume highlights current trends in modern computational chemistry and discusses the development of theoretical methodologies, state-of-the-art computational algorithms and their practical applications. This volume is part of a continuous effort by the editors to document recent advances by prominent researchers in the area of computational chemistry. Most of the chapters are contributed by invited speakers and participants to International annual conference “Current Trends in Computational Chemistry”, organized by Jerzy Leszczynski, one of the editors of the current volume. This conference series has become an exciting platform for eminent theoretical and computational chemists to discuss their recent findings and is regularly honored by the presence of Nobel laureates. Topics covered in the book include reactive force-field methodologies, coarse-grained modeling, DNA damage radiosensitizers, modeling and simulation of surfaces and interfaces, non-covalent interactions, and many others. The book is intended for theoretical and computational chemists, physical chemists, material scientists and those who are eager to apply computational chemistry methods to problems of chemical and physical importance. It is a valuable resource for undergraduate, graduate and PhD students as well as for established researchers.
Easy access to information on all aspects of molecular computations Order the six-volume set today and benefit from the special introductory price – full details below Computational Molecular Science is the successor of the highly acclaimed Encyclopedia of Computational Chemistry, which was published by Wiley in 1998, and is the ultimate resource on all aspects of computational chemistry and its applications in chemistry, biology and materials science. Capturing the interdisciplinary flavour of the field, authors address key topics from differing perspectives such as chemistry, biology and materials science. In order to make the material accessible to students, practitioners and researchers alike the content is presented at different depths and levels in a range of article types: Overviews provide broad and non-technical treatment of important topics at an accessible level Key areas of research in the style of leading review journals are presented in Advanced Reviews for researchers and advanced students Focus Articles present short, technical contributions describing specific real-world issues, e.g. implementations etc. Software Reviews feature specific software packages of high utility in the field, with an emphasis on their capabilities and implementation rather than methodology Opinions present individual perspectives from thought leaders in the field A special focus has been placed on computations and modeling of relevant biomolecules which are essential to new developments in medicinal chemistry. Covering all areas relevant to the understanding of computational molecular methods the content is structured in the following sections: Computer and Information Science includes a wide range of techniques and applications used in cheminformatics, such as artificial intelligence, patent information, semantic web, data mining, automated synthesis design, etc. Electronic Structure Theory covers computations of molecules based on ab initio quantum molecular methods and density functional theory Simulation Methods includes free energy methods, molecular dynamics, Monte-Carlo methods and molecular mechanics Software describes examples of commercial and shareware software packages for molecular computations and modeling Structure and Mechanism concentrates on applications in the areas of computational biochemistry and biophysics, computational materials science, molecular structures and dynamics, and reaction mechanisms Theoretical and Physical Chemistry includes reaction dynamics, kinetics and spectroscopy Experience the scope of content in Computational Molecular Science for yourself with a selection of free articles available to download now: Predictions of protein–RNA interactions Cheminformatics and the Semantic Web: adding value with linked data and enhanced provenance Density functional theory in materials science Metadynamics Noncovalent interactions in biochemistry All chapters included in Computational Molecular Science have also been published online in WIREs Computational Molecular Science between January 2011 and June 2014. WIREs Computational Molecular Science Wiley Interdisciplinary Reviews, or short WIREs, combine the best possible features of major online reference works (didactic structure, high visibility, fast searches, and electronic accessibility) with the completeness, rigor, and overall high quality of review journals. WIREs Computational Molecular Science uses all the advantages of the WIREs concept and is the logical online successor of the highly acclaimed Encyclopedia of Computational Chemistry. As a review journal WIREs Computational Molecular Science includes all the material published in the book edition and will continue to publish much more material in the future, establishing itself as THE REVIEW JOURNAL in the field of computational chemistry and biology, offering the following advantages: An impact factor of 5.783 according to 2012 ISI Journal Citation Reports with the following Ranking: 1/47 (Mathematical & Computational Biology) and 22/152 (Chemistry Multidisciplinary) Indexed in all major A&I services such as CAS, TRSI and Scopus Important new forum to promote cross-disciplinary research on computational chemistry, biochemistry and materials science Authoritative, encyclopedic resource addressing key topics from diverse research perspectives Recommend that your librarian requests a free trial for your institution, click here For further information about WIREs Computational Molecular Science and other WIREs titles visit www.wires.wiley.com/compmolsci
Practical Aspects of Computational Chemistry I: An Overview of the Last Two Decades and Current Trends gathers the advances made within the last 20 years by well-known experts in the area of theoretical and computational chemistry and physics. The title itself reflects the celebration of the twentieth anniversary of the “Conference on Current Trends in Computational Chemistry (CCTCC)” to which all authors have participated and contributed to its success. This volume poses (and answers) important questions of interest to the computational chemistry community and beyond. What is the historical background of the “Structural Chemistry”? Is there any way to avoid the problem of intruder state in the multi-reference formulation? What is the recent progress on multi-reference coupled cluster theory? Starting with a historical account of structural chemistry, the book focuses on the recent advances made in promising theories such as many body Brillouin-Wigner theory, multireference state-specific coupled cluster theory, relativistic effect in chemistry, linear and nonlinear optical properties of molecules, solution to Kohn-Sham problem, electronic structure of solid state materials, development of model core potential, quantum Monte Carlo method, nano and molecular electronics, dynamics of photodimerization and excited states, intermolecular interactions, hydrogen bonding and non-hydrogen bonding interactions, conformational flexibility, metal cations in zeolite catalyst and interaction of nucleic acid bases with minerals. Practical Aspects of Computational Chemistry I: An Overview of the Last Two Decades and Current Trends is aimed at theoretical and computational chemists, physical chemists, materials scientists, and particularly those who are eager to apply computational chemistry methods to problem of chemical and physical importance. This book will provide valuable information to undergraduate, graduate, and PhD students as well as to established researchers.
Published continuously since 1944, the Advances in Protein Chemistry and Structural Biology serial has been a continuous, essential resource for protein chemists. Covering reviews of methodology and research in all aspects of protein chemistry, including purification/expression, proteomics, modeling and structural determination and design, each volume brings forth new information about protocols and analysis of proteins while presenting the most recent findings from leading experts in a broad range of protein-related topics. This volume features articles on Computational Chemistry methods in Structural Biology. Essential resource for protein chemists This volume features articles on Computational Chemistry methods in Structural Biology