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Algorithms in Bioinformatics
This book constitutes the refereed proceedings of the Third International Workshop on Algorithms in Bioinformatics, WABI 2003, held in Budapest, Hungary, in September 2003. The 36 revised full papers presented were carefully reviewed and selected from 78 submissions. The papers are organized in topical sections on comparative genomics, database searching, gene finding and expression, genome mapping, pattern and motif discovery, phylogenetic analysis, polymorphism, protein structure, sequence alignment, and string algorithms.
Human Genome
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Chip Technology
DNA-chip analysis has come a long way since the first conference in Moscow in 1991. Nowadays, DNA-microarrays seem to be a common commodity in biological sciences. The complexity hidden behind the apparent ease of such studies, however, is highlighted by the fact that it took about ten years before the methodology really set off. Also, on closer scrutiny, one realises that some problems still remain. Nevertheless, microarrays produce data on a scale beyond imagination a few years ago. The authors of the book took part in bringing this about. They are well-known experts in the field, many - like Edwin Southern, Hans Lehrach, Radoje Drmanac, Pavel Pevzner and Charles Cantor - have been actively pursuing array technology for more than a decade. They demonstrate the continuous development in both technology and application areas and elucidate on critical points that need to be considered when performing microarray analyses.
Bioinformatics for Biologists
The computational education of biologists is changing to prepare students for facing the complex datasets of today's life science research. In this concise textbook, the authors' fresh pedagogical approaches lead biology students from first principles towards computational thinking. A team of renowned bioinformaticians take innovative routes to introduce computational ideas in the context of real biological problems. Intuitive explanations promote deep understanding, using little mathematical formalism. Self-contained chapters show how computational procedures are developed and applied to central topics in bioinformatics and genomics, such as the genetic basis of disease, genome evolution or the tree of life concept. Using bioinformatic resources requires a basic understanding of what bioinformatics is and what it can do. Rather than just presenting tools, the authors - each a leading scientist - engage the students' problem-solving skills, preparing them to meet the computational challenges of their life science careers.
Genome-Based Therapeutics
The number of new drug approvals has remained reasonably steady for the past 50 years at around 20 to 30 per year, while at the same time the total spending on health-related research and development has tripled since 1990. There are many suspected causes for this trend, including increases in regulatory barriers, the rising costs of scientific inquiry, a decrease in research and development efficiency, the downstream effects of patient expirations on investment, and the lack of production models that have successfully incorporated new technology. Regardless, this trajectory is not economically sustainable for the businesses involved, and, in response, many companies are turning toward colla...
Bioinformatics, Supercomputing And Complex Genome Analysis - Proceedings Of The 2nd International Conference
Since the beginning of the genome project, the necessary involvement of scientists of widely divergent backgrounds has been evident. The proper handling, analysis, dissemination of information, and the control and data gathering of automated process are areas where computers are directly involved. Thus computers are intimately tied into the production and analysis of biological data. However, many challenges lie ahead.This volume is a collection of selected oral and poster presentations given at The Second International Conference on Bioinformatics, Supercomputing and Complex Genome Analysis, organized to address some of these challenges. The topics include the current status and future prospects of genome map, mapping and sequencing, complex genome analysis,linguistic and neural network approaches, database issues, and computer tools in the genome project. The volume will be ideal for students, newcomers, young researchers and experts alike, who are computationally or experimentally oriented.Keynote Speakers: C L Smith, D Grothues, T Ito, T Sano, D Wang, Y-W Zhu, C R Canton & R J Rohins.
Human Genome News
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The $1,000 Genome
In this essential guide to the brave new future, Dr. Kevin Davies, author of Cracking the Genome, reveals the masterful ingenuity that transformed the process of decoding DNA and vividly brings the extraordinary drama of the grand scientific achievement to life. In 2000, President Bill Clinton signaled the completion of the Human Genome Project at a cost in excess of $2 billion. A decade later, the price for any of us to order our own personal genome sequence—a comprehensive map of the 3 billion letters in our DNA—had already dropped to just $1,000. Dozens of men and women—scientists, entrepreneurs, celebrities, and patients—have already been sequenced, pioneering a bold new era of p...
