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Bioinformatics for Vaccinology
by Darren R. Flower“… this book was written from start to finish by one extremely dedicated and erudite individual. The author has done an excellent job of covering the many topics that fall under the umbrella of computational biology for vaccine design, demonstrating an admirable command of subject matter in fields as disparate as object-oriented databases and regulation of T cell response. Simply put, it has just the right breadth and depth, and it reads well. In fact, readability is one of its virtues—making the book enticing and useful, all at once…” Human Vaccines, 2010 "... This book has several strong points. Although there are many textbooks that deal with vaccinology, few attempts have been made to bring together descriptions of vaccines in history, basic bioinformatics, various computational solutions and challenges in vaccinology, detailed experimental methodologies, and cutting-edge technologies... This book may well serve as a first line of reference for all biologists and computer scientists..." –Virology Journal, 2009 Vaccines have probably saved more lives and reduced suffering in a greater number of people than any other medical intervention in human history, succeeding in eradicating smallpox and significantly reducing the mortality and incidence of other diseases. However, with the emergence of diseases such as SARS and the threat of biological warfare, vaccination has once again become a topic of major interest in public health. Vaccinology now has at its disposal an array of post-genomic approaches of great power. None has a more persuasive potential impact than the application of computational informatics to vaccine discovery; the recent expansion in genome data and the parallel increase in cheap computing power have placed the bioinformatics exploration of pathogen genomes centre stage for vaccine researchers. This is the first book to address the area of bioinformatics as applied to rational vaccine design, discussing the ways in which bioinformatics can contribute to improved vaccine development by introducing the subject of harnessing the mathematical and computing power inherent in bioinformatics to the study of vaccinology putting it into a historical and societal context, and exploring the scope of its methods and applications. Bioinformatics for Vaccinology is a one-stop introduction to computational vaccinology. It will be of particular interest to bioinformaticians with an interest in immunology, as well as to immunologists, and other biologists who need to understand how advances in theoretical and computational immunobiology can transform their working practices.
Bioinformatics in Aquaculture: Principles and Methods
by Zhanjiang John LiuBioinformatics derives knowledge from computer analysis of biological data. In particular, genomic and transcriptomic datasets are processed, analysed and, whenever possible, associated with experimental results from various sources, to draw structural, organizational, and functional information relevant to biology. Research in bioinformatics includes method development for storage, retrieval, and analysis of the data. Bioinformatics in Aquaculture provides the most up to date reviews of next generation sequencing technologies, their applications in aquaculture, and principles and methodologies for the analysis of genomic and transcriptomic large datasets using bioinformatic methods, algorithm, and databases. The book is unique in providing guidance for the best software packages suitable for various analysis, providing detailed examples of using bioinformatic software and command lines in the context of real world experiments. This book is a vital tool for all those working in genomics, molecular biology, biochemistry and genetics related to aquaculture, and computational and biological sciences.
Bioinformatics in Aquaculture: Principles and Methods
by Zhanjiang John LiuBioinformatics derives knowledge from computer analysis of biological data. In particular, genomic and transcriptomic datasets are processed, analysed and, whenever possible, associated with experimental results from various sources, to draw structural, organizational, and functional information relevant to biology. Research in bioinformatics includes method development for storage, retrieval, and analysis of the data. Bioinformatics in Aquaculture provides the most up to date reviews of next generation sequencing technologies, their applications in aquaculture, and principles and methodologies for the analysis of genomic and transcriptomic large datasets using bioinformatic methods, algorithm, and databases. The book is unique in providing guidance for the best software packages suitable for various analysis, providing detailed examples of using bioinformatic software and command lines in the context of real world experiments. This book is a vital tool for all those working in genomics, molecular biology, biochemistry and genetics related to aquaculture, and computational and biological sciences.
Bioinformatics in Cancer and Cancer Therapy (Cancer Drug Discovery and Development)
by Gavin J. GordonBioinformatics can be loosely defined as the collection, classification, storage, and analysis of biochemical and biological information using computers and mathematical algorithms. Bioinformatics represents a marriage of biology, medicine, computer science, physics, and mathematics, fields of study that have historically existed as mutually exclusive disciplines. Edited by Gavin Gordon, Bioinformatics in Cancer and Cancer Therapy, the focus of this book is to provide a historical and technical perspective on the analytical techniques, methodologies, and platforms used in bioinformatics experiments, to show how a bioinformatics approach has been used to characterize various cancer-related processes, and to demonstrate how a bioinformatics approach is being used to bridge basic science and the clinical arena to positively impact patient care and management.
Bioinformatics, Medical Informatics and the Law (Elgar Intellectual Property Law and Practice series)
This book covers a broad range of legal topics relating to the fields of bioinformatics and medical informatics, which relate to the intersection of biomedical information and computer programming within the contexts of scientific research, product development and healthcare delivery. A number of usually distinct bodies of legal doctrine come together in this area, sometimes overlapping, sometimes colliding in unexpected ways. Key issues discussed in the book include: An overview of the current landscape of bioinformatics and medical informaticsA focus on the legal issues arising from the development and acquisition of informatics tools for use in a laboratory or healthcare settingDevelopments in patent and innovation law that are important for informatics applicationsA discussion of institutions and collaborative arrangements in which informatics applications are developed and used todayData protection and privacy issues applicable to informatics applications in the U.S. and Europe. While no single work can cover the entire set of legal issues arising from large, dynamic and complex fields such as bioinformatics and medical informatics, this book strives to offer the reader insight into some of the major legal trends and considerations applicable to these fields today.
Bioinformatics of Non Small Cell Lung Cancer and the Ras Proto-Oncogene (SpringerBriefs in Applied Sciences and Technology)
by Amita Kashyap D. Bujamma Naresh Babu MCancer is initiated by activation of oncogenes or inactivation of tumor suppressor genes. Mutations in the K-ras proto-oncogene are responsible for 10–30% of adenocarcinomas. Clinical Findings point to a wide variety of other cancers contributing to lung cancer incidence. Such a scenario makes identification of lung cancer difficult and thus identifying its mechanisms can contribute to the society. Identifying unique conserved patterns common to contributing proto-oncogenes may further be a boon to Pharmacogenomics and pharmacoinformatics. This calls for ab initio/de novo drug discovery that in turn will require a comprehensive in silico approach of Sequence, Domain, Phylogenetic and Structural analysis of the receptors, ligand screening and optimization and detailed Docking studies.This brief involves extensive role of the RAS subfamily that includes a set of proteins, which cause an over expression of cancer-causing genes like M-ras and initiate tumour formation in lungs. SNP Studies and Structure based drug discovery will also be undertaken.
Bioinformatics of the Brain
by Kayhan Erciyes Tuba SevimogluThe brain consisting of billions of neurons is probably the most complex and mysterious organ of the body. Understanding the functioning of the brain in its health and disease states has baffled the researchers working in this area for many years. The diversity of brain diseases and disorders makes the analysis of brain functions an even more challenging area of research. In vitro and in vivo studies regarding the brain may be laborious, however, bioinformatics using in silico approaches may take the burden off the experimental studies and give us a clearer perspective on disease and healthy states of the brain, its functions, and disease mechanisms.Recent advancements in neuroimaging technologies, the development of high-performance computers and the development of software, algorithms and methods to analyze data obtained from various neuroimaging processes have opened new frontiers in neuroscience enabling unprecedented finer analysis of the brain functions. This relatively new approach of brain analysis which may be termed Bioinformatics of the Brain is the main subject of this volume aiming to provide a thorough review of various bioinformatics approaches for analyzing the functioning of the brain and understanding brain diseases such as neurodegenerative diseases, brain tumors, and neuropsychiatric disorders. Authors from various disciplines in this volume each focus on a different aspect aiming to expand our understanding of this area of research. Topics included are: Brain diseases and disorders Stem cell therapy of neurodegenerative diseases Tissue engineering applications of gliomas Brain tumor detection and modeling Brain tumor growth simulation Brain-computer interface Bioinformatics of brain diseases Graph-theoretical analysis of complex brain networks Brain proteomics This book is intended to aid scientists, researchers, and graduate students in carrying out interdisciplinary research in the areas of bioinformatics, bioengineering, computer engineering, software engineering, mathematics, molecular biology, genetics, and biotechnology.
Bioinformatics of the Brain
The brain consisting of billions of neurons is probably the most complex and mysterious organ of the body. Understanding the functioning of the brain in its health and disease states has baffled the researchers working in this area for many years. The diversity of brain diseases and disorders makes the analysis of brain functions an even more challenging area of research. In vitro and in vivo studies regarding the brain may be laborious, however, bioinformatics using in silico approaches may take the burden off the experimental studies and give us a clearer perspective on disease and healthy states of the brain, its functions, and disease mechanisms.Recent advancements in neuroimaging technologies, the development of high-performance computers and the development of software, algorithms and methods to analyze data obtained from various neuroimaging processes have opened new frontiers in neuroscience enabling unprecedented finer analysis of the brain functions. This relatively new approach of brain analysis which may be termed Bioinformatics of the Brain is the main subject of this volume aiming to provide a thorough review of various bioinformatics approaches for analyzing the functioning of the brain and understanding brain diseases such as neurodegenerative diseases, brain tumors, and neuropsychiatric disorders. Authors from various disciplines in this volume each focus on a different aspect aiming to expand our understanding of this area of research. Topics included are: Brain diseases and disorders Stem cell therapy of neurodegenerative diseases Tissue engineering applications of gliomas Brain tumor detection and modeling Brain tumor growth simulation Brain-computer interface Bioinformatics of brain diseases Graph-theoretical analysis of complex brain networks Brain proteomics This book is intended to aid scientists, researchers, and graduate students in carrying out interdisciplinary research in the areas of bioinformatics, bioengineering, computer engineering, software engineering, mathematics, molecular biology, genetics, and biotechnology.
Bioinformatics Programming in Python: A Practical Course for Beginners
by Ruediger-Marcus FlaigThis first introductory book designed to train novice programmers is based on a student course taught by the author, and has been optimized for biology students without previous experience in programming. By interspersing theory chapters with numerous small and large programming exercises, the author quickly shows readers how to do their own programming, and throughout uses anecdotes and real-life examples from the biosciences to 'spice up' the text. This practical book thus teaches essential programming skills for life scientists who want -- or need -- to write their own bioinformatics software tools.
Bioinformatics Research and Applications: 20th International Symposium, ISBRA 2024, Kunming, China, July 19–21, 2024, Proceedings, Part I (Lecture Notes in Computer Science #14954)
by Wei Peng Zhipeng Cai Pavel SkumsThis book constitutes the refereed proceedings of the 20th International Symposium on Bioinformatics Research and Applications, ISBRA 2024, held in Kunming, China, in July 19–21, 2024. The 93 full papers included in this book were carefully reviewed and selected from 236 submissions. The symposium provides a forum for the exchange of ideas and results among researchers, developers, and practitioners working on all aspects of bioinformatics and computational biology and their applications.
Bioinformatics Research and Applications: 20th International Symposium, ISBRA 2024, Kunming, China, July 19–21, 2024, Proceedings, Part II (Lecture Notes in Computer Science #14955)
by Pavel Skums Zhipeng Cai Wei PengThis book constitutes the refereed proceedings of the 20th International Symposium on Bioinformatics Research and Applications, ISBRA 2024, held in Kunming, China, in July 19–21, 2024. The 93 full papers included in this book were carefully reviewed and selected from 236 submissions. The symposium provides a forum for the exchange of ideas and results among researchers, developers, and practitioners working on all aspects of bioinformatics and computational biology and their applications.
Bioinformatics Research and Applications: 20th International Symposium, ISBRA 2024, Kunming, China, July 19–21, 2024, Proceedings, Part III (Lecture Notes in Computer Science #14956)
by Pavel Skums Zhipeng Cai Wei PengThis book constitutes the refereed proceedings of the 20th International Symposium on Bioinformatics Research and Applications, ISBRA 2024, held in Kunming, China, in July 19–21, 2024. The 93 full papers included in this book were carefully reviewed and selected from 236 submissions. The symposium provides a forum for the exchange of ideas and results among researchers, developers, and practitioners working on all aspects of bioinformatics and computational biology and their applications.
Bioinformatics Software Engineering: Delivering Effective Applications
by Paul WestonBioinformatics Software Engineering: Delivering Effective Applications will be useful to anyone who wants to understand how successful software can be developed in a rapidly changing environment. A handbook, not a textbook, it is not tied to any particular operating system, platform, language, or methodology. Instead it focuses on principles and practices that have been proven in the real world. It is pragmatic, emphasizing the importance of what the author calls Adaptive Programming - doing what works in your situation, and it is concise, covering the whole software development lifecycle in one slim volume. At each stage, it describes common pitfalls, explains how these can be avoided, and suggests simple techniques which make it easier to deliver better solutions. "Well thought-out ... addresses many of the key issues facing developers of bioinformatics software." (Simon Dear, Director, UK Technology and Development, Bioinformatics Engineering and Integration, Genetics Research, GlaxoSmithKline) Here are some examples from the book itself. On software development: “Writing software properly involves talking to people – often lots of people – and plenty of non-coding work on your part. It requires the ability to dream up new solutions to problems so complicated that they are hard to describe.” From description to specification: “Look for verbs – action words, such as ‘does’, ‘is’ and ‘views’. Identify nouns – naming words, like ‘user’, ‘home’ and ‘sequence’. List the adjectives – describing words, for example ‘quick’, ‘simple’ or ‘precise’. The verbs are the functions that must be provided by your application. The nouns define the parameters to those functions, and the adjectives specify the constraint conditions under which your program must operate.” On how to start writing software: “Handle errors. Take in data. Show output. Get going!” On testing: “It may not be physically possible to test every potential combination of situations that could occur as users interact with a program. But one thing that can be done is to test an application at the agreed extremes of its capability: the maximum number of simultaneous users it has to support, the minimum system configuration it must run on, the lowest communication speed it must cope with, and the most complex operations it must perform. If your program can cope with conditions at the edge of its performance envelope, it is less likely to encounter difficulties in dealing with less challenging situations.” On showing early versions of software to users: “It can be hard explaining the software development process to people who are unfamiliar with it. Code that to you is nearly finished is simply not working to them, and seeing their dream in bits on the workbench can be disappointing to customers, especially when they were expecting to be able to take it for a test drive.” On bugs: “If your users find a genuinely reproducible bug in production code, apologize, fix it fast, and then fix the system that allowed it through. And tell your customers what you are doing, and why, so they will be confident that it will not happen again. Everybody makes mistakes. Don’t make the same ones twice.” And one last thought on successful software development: "You have to be a detective, following up clues and examining evidence to discover what has gone wrong and why. And you have to be a politician, underst
Bioinformatics - A Student's Companion
by Kalibulla Syed Ibrahim Guruswami Gurusubramanian Zothansanga Ravi Prakash Yadav Nachimuthu Senthil Kumar Shunmugiah Karutha Pandian Probodh Borah Surender MohanThis manual offers a stand-alone reading companion, unique in simplifying the practical components of Bioinformatics in a unique and user-friendly manner. It covers the practical component of syllabi used at most leading universities and discusses the most extensively used tools and methodologies in Bioinformatics. Research in the biological sciences has made tremendous strides in recent years due in part to the increased automation in data generation. At the same time, storing, managing and interpreting huge volumes of data has become one of the most challenging tasks for scientists. These two aspects have ultimately necessitated the application of computers, giving rise to a highly interdisciplinary discipline–Bioinformatics. Despite the richness of bioinformatics resources and methods, the exposure of life sciences undergraduates and postgraduates to bioinformatics is extremely limited. Though the internet offers various tools for free, and provides guides for using them, it fails to help users interpret the processed data. Moreover, most sites fail to update their help pages to accommodate software upgrades. Though the market is flooded with books discussing the theoretical concepts in Bioinformatics, a manual of this kind is rarely found. The content developed to meet the needs of readers from diverse background and to incorporate the syllabi of undergraduate and postgraduate courses at various universities.
Bioinformatics Techniques for Drug Discovery: Applications for Complex Diseases (SpringerBriefs in Computer Science)
by Aman Chandra Kaushik Ajay Kumar Shiv Bharadwaj Ravi Chaudhary Shakti SahiThe application of bioinformatics approaches in drug design involves an interdisciplinary array of sophisticated techniques and software tools to elucidate hidden or complex biological data. This work reviews the latest bioinformatics approaches used for drug discovery. The text covers ligand-based and structure-based approaches for computer-aided drug design, 3D pharmacophore modeling, molecular dynamics simulation, the thermodynamics of ligand−receptor and ligand−enzyme association, thermodynamic characterization and optimization, and techniques for computational genomics and proteomics.
Bioinformatics Technologies
by Yi-Ping Phoebe ChenSolving modern biological problems requires advanced computational methods. Bioinformatics evolved from the active interaction of two fast-developing disciplines, biology and information technology. The central issue of this emerging field is the transformation of often distributed and unstructured biological data into meaningful information. This book describes the application of well-established concepts and techniques from areas like data mining, machine learning, database technologies, and visualization techniques to problems like protein data analysis, genome analysis and sequence databases. Chen has collected contributions from leading researchers in each area. The chapters can be read independently, as each offers a complete overview of its specific area, or, combined, this monograph is a comprehensive treatment that will appeal to students, researchers, and R&D professionals in industry who need a state-of-the-art introduction into this challenging and exciting young field.
Bioinformatics Tools for Pharmaceutical Drug Product Development
by Vivek Chavda K. Anand Vasso ApostolopoulosBIOINFORMATICS TOOLS FOR Pharmaceutical DRUG PRODUCT DLEVELOPMENT A timely book that details bioinformatics tools, artificial intelligence, machine learning, computational methods, protein interactions, peptide-based drug design, and omics technologies, for drug development in the pharmaceutical and medical sciences industries. The book contains 17 chapters categorized into 3 sections. The first section presents the latest information on bioinformatics tools, artificial intelligence, machine learning, computational methods, protein interactions, peptide-based drug design, and omics technologies. The following 2 sections include bioinformatics tools for the pharmaceutical sector and the healthcare sector. Bioinformatics brings a new era in research to accelerate drug target and vaccine design development, improving validation approaches as well as facilitating and identifying side effects and predicting drug resistance. As such, this will aid in more successful drug candidates from discovery to clinical trials to the market, and most importantly make it a more cost-effective process overall. Readers will find in this book: Applications of bioinformatics tools for pharmaceutical drug product development like process development, pre-clinical development, clinical development, commercialization of the product, etc.; The ever-expanding application of this novel technology and discusses some of the unique challenges associated with such an approach; The broad and deep background, as well as updates, on recent advances in both medicine and AI/ML that enable the application of these cutting-edge bioinformatics tools. Audience The book will be used by researchers and scientists in academia and industry including drug developers, computational biochemists, bioinformaticians, immunologists, pharmaceutical and medical sciences, as well as those in artificial intelligence and machine learning.
Bioinformatics Tools for Pharmaceutical Drug Product Development
by Vivek Chavda Krishnan Anand Vasso ApostolopoulosBIOINFORMATICS TOOLS FOR Pharmaceutical DRUG PRODUCT DLEVELOPMENT A timely book that details bioinformatics tools, artificial intelligence, machine learning, computational methods, protein interactions, peptide-based drug design, and omics technologies, for drug development in the pharmaceutical and medical sciences industries. The book contains 17 chapters categorized into 3 sections. The first section presents the latest information on bioinformatics tools, artificial intelligence, machine learning, computational methods, protein interactions, peptide-based drug design, and omics technologies. The following 2 sections include bioinformatics tools for the pharmaceutical sector and the healthcare sector. Bioinformatics brings a new era in research to accelerate drug target and vaccine design development, improving validation approaches as well as facilitating and identifying side effects and predicting drug resistance. As such, this will aid in more successful drug candidates from discovery to clinical trials to the market, and most importantly make it a more cost-effective process overall. Readers will find in this book: Applications of bioinformatics tools for pharmaceutical drug product development like process development, pre-clinical development, clinical development, commercialization of the product, etc.; The ever-expanding application of this novel technology and discusses some of the unique challenges associated with such an approach; The broad and deep background, as well as updates, on recent advances in both medicine and AI/ML that enable the application of these cutting-edge bioinformatics tools. Audience The book will be used by researchers and scientists in academia and industry including drug developers, computational biochemists, bioinformaticians, immunologists, pharmaceutical and medical sciences, as well as those in artificial intelligence and machine learning.
Bioinformatics with Python Cookbook
by Tiago AntaoIf you have intermediate-level knowledge of Python and are well aware of the main research and vocabulary in your bioinformatics topic of interest, this book will help you develop your knowledge further.
Bioinformatik: Grundlagen, Algorithmen, Anwendungen
by Rainer MerklJetzt in dritter Auflage komplett überarbeitet und im Bereich des maschinellen Lernens stark erweitert. Ein perfekte Einführung für alle Studenten der Lebenswissenschaften oder Informatik, die einen Einblick in die gängigen Methoden der Bioinformatik benötigen.
Bioinformatik: Grundlagen, Algorithmen, Anwendungen
by Rainer MerklJetzt in dritter Auflage komplett überarbeitet und im Bereich des maschinellen Lernens stark erweitert. Ein perfekte Einführung für alle Studenten der Lebenswissenschaften oder Informatik, die einen Einblick in die gängigen Methoden der Bioinformatik benötigen.
Bioinformatik: Grundlagen, Algorithmen, Anwendungen
by Rainer MerklBioinformatik Der Marktführer bei den Bioinformatiklehrbüchern in neuer Auflage und mit dem neuen Thema Molekulardynamik Bioinformatik ist eine Kerndisziplin in den modernen Biowssenschaften, von der Biotechnologie über die Biochemie und Molekularbiologie bis zur Molekulargenetik und Molekularmedizin. Sie ist eine essenzielle Grundlage für alle “omics”-Technologien, für die Strukturbiologie, die Systembiologie sowie die synthetische Biologie. Bioinformatik. Grundlagen, Algorithmen, Anwendungen bietet eine umfassende Einführung in die wichtigsten Methoden der Bioinformatik. Der Autor erklärt dabei sowohl die mathematischen und biologischen Grundlagen als auch die wichtigsten Software-Tools und deren Anwendungsbereiche. Schwerpunkte sind Methoden zum Sequenzvergleich, Verfahren zur Charakterisierung von Proteinfamilien, Algorithmen zur Vorhersage von Protein- und RNA-Strukturen, Methoden des maschinellen Lernens und das Proteindesign. Für die 4. Auflage wurde der Text durchgehend aktualisiert und um ein Kapitel zur Molekulardynamik erweitert. Neu aufgenommene Exkurse zu Meilensteinen der Bioinformatik und aktuellen Anwendungsgebieten lockern den Text auf. Auf der ebenfalls komplett überarbeiteten Begleit-Webseite werden interaktive Lernmodule bereitgestellt, einschließlich mehr als 120 Übungsaufgaben, zum Teil mit Lösungen. Eine perfekte Einführung für alle Studenten der Lebenswissenschaften oder Informatik, die einen Einblick in die gängigen Methoden der Bioinformatik benötigen, sowie ein wertvoller Begleiter für alle, die bereits bioinformatische Werkzeuge nutzen und die zugrundeliegenden Konzepte verstehen möchten.
Bioinformatik: Grundlagen, Algorithmen, Anwendungen
by Rainer MerklBioinformatik Der Marktführer bei den Bioinformatiklehrbüchern in neuer Auflage und mit dem neuen Thema Molekulardynamik Bioinformatik ist eine Kerndisziplin in den modernen Biowssenschaften, von der Biotechnologie über die Biochemie und Molekularbiologie bis zur Molekulargenetik und Molekularmedizin. Sie ist eine essenzielle Grundlage für alle “omics”-Technologien, für die Strukturbiologie, die Systembiologie sowie die synthetische Biologie. Bioinformatik. Grundlagen, Algorithmen, Anwendungen bietet eine umfassende Einführung in die wichtigsten Methoden der Bioinformatik. Der Autor erklärt dabei sowohl die mathematischen und biologischen Grundlagen als auch die wichtigsten Software-Tools und deren Anwendungsbereiche. Schwerpunkte sind Methoden zum Sequenzvergleich, Verfahren zur Charakterisierung von Proteinfamilien, Algorithmen zur Vorhersage von Protein- und RNA-Strukturen, Methoden des maschinellen Lernens und das Proteindesign. Für die 4. Auflage wurde der Text durchgehend aktualisiert und um ein Kapitel zur Molekulardynamik erweitert. Neu aufgenommene Exkurse zu Meilensteinen der Bioinformatik und aktuellen Anwendungsgebieten lockern den Text auf. Auf der ebenfalls komplett überarbeiteten Begleit-Webseite werden interaktive Lernmodule bereitgestellt, einschließlich mehr als 120 Übungsaufgaben, zum Teil mit Lösungen. Eine perfekte Einführung für alle Studenten der Lebenswissenschaften oder Informatik, die einen Einblick in die gängigen Methoden der Bioinformatik benötigen, sowie ein wertvoller Begleiter für alle, die bereits bioinformatische Werkzeuge nutzen und die zugrundeliegenden Konzepte verstehen möchten.
Bioinformatik: Sequenz - Struktur - Funktion
by Reinhard RauhutDie Bioinformatik ist für die Weiterentwicklung der modernen Biowissenschaften von herausragender Bedeutung. In Grundzügen wird sie Teil einer jeden Ausbildung zum Biologen oder Biochemiker werden. Obwohl die Zahl der angebotenen Lehrveranstaltungen rapide zunimmt, gibt es bisher auf dem deutschsprachigen Markt noch kein Lehrbuch zu dieser Thematik. Das vorliegende Werk schließt diese Lücke. Reich bebildert und mit relativ wenig mathematischem Formelaufwand werden die Grundlagen der Bioinformatik gut verständlich aufbereitet. Die Themenauswahl ist dabei auf die Bedürfnisse der experimentell tätigen Biochemiker, Biologen und Mediziner abgestimmt. Auf die wichtigsten Hilfsmittel, die das Internet kostenlos bietet, wird ausführlich eingegangen. Die Inhalte werden in der Abfolge Sequenz - Struktur - Funktion entwickelt: · Sequenzdatenbanken · Genomprojekte · Proteinorientierte Datenbanken · Techniken des eukaryontischen Genomassembly · Strukturdatenbanken · Expressionsanalyse mit DNA Chips · Proteomics · Phylogenie und Sequenz · DNA Computing Die Bioinformatik betrifft die tägliche Arbeit eines jeden Biowissenschaftlers. Es sollte sich daher jeder mit den grundlegenden Ansätzen vertraut machen.
Bioinformatik: Sequenz - Struktur - Funktion
by Reinhard RauhutDie Bioinformatik ist für die Weiterentwicklung der modernen Biowissenschaften von herausragender Bedeutung. In Grundzügen wird sie Teil einer jeden Ausbildung zum Biologen oder Biochemiker werden. Obwohl die Zahl der angebotenen Lehrveranstaltungen rapide zunimmt, gibt es bisher auf dem deutschsprachigen Markt noch kein Lehrbuch zu dieser Thematik. Das vorliegende Werk schließt diese Lücke. Reich bebildert und mit relativ wenig mathematischem Formelaufwand werden die Grundlagen der Bioinformatik gut verständlich aufbereitet. Die Themenauswahl ist dabei auf die Bedürfnisse der experimentell tätigen Biochemiker, Biologen und Mediziner abgestimmt. Auf die wichtigsten Hilfsmittel, die das Internet kostenlos bietet, wird ausführlich eingegangen. Die Inhalte werden in der Abfolge Sequenz - Struktur - Funktion entwickelt: · Sequenzdatenbanken · Genomprojekte · Proteinorientierte Datenbanken · Techniken des eukaryontischen Genomassembly · Strukturdatenbanken · Expressionsanalyse mit DNA Chips · Proteomics · Phylogenie und Sequenz · DNA Computing Die Bioinformatik betrifft die tägliche Arbeit eines jeden Biowissenschaftlers. Es sollte sich daher jeder mit den grundlegenden Ansätzen vertraut machen.