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Computing for Biologists
Python Programming and Principles

$40.00 USD

  • Date Published: October 2014
  • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • format: Adobe eBook Reader
  • isbn: 9781316056592

$ 40.00 USD
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  • Computing is revolutionizing the practice of biology. This book, which assumes no prior computing experience, provides students with the tools to write their own Python programs and to understand fundamental concepts in computational biology and bioinformatics. Each major part of the book begins with a compelling biological question, followed by the algorithmic ideas and programming tools necessary to explore it: the origins of pathogenicity are examined using gene finding, the evolutionary history of sex determination systems is studied using sequence alignment, and the origin of modern humans is addressed using phylogenetic methods. In addition to providing general programming skills, this book explores the design of efficient algorithms, simulation, NP-hardness, and the maximum likelihood method, among other key concepts and methods. Easy-to-read and designed to equip students with the skills to write programs for solving a range of biological problems, the book is accompanied by numerous programming exercises, available at www.cs.hmc.edu/CFB.

    • Easy-to-read and designed specifically for students in the life sciences, assuming little or no computing background
    • Teaches general and widely applicable Python (both versions 2 and 3) programming skills along with computational methods for solving real biological problems
    • Algorithms covered include gene finding, sequence alignment and phylogenetic methods, with an accompanying website providing a range of practical programming exercises
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    Reviews & endorsements

    'In my twenty years as a professor, I have never run across a textbook on bioinformatics algorithms that a biologist can read from cover to cover and understand. This is the one.' Pavel Pevzner, Ronald R. Taylor Distinguished Professor of Computer Science, University of California, San Diego

    'This is an awesome book for anyone to get into computing. It is easy to follow and clearly structured so the reader understands what they are learning and why. The book provides the fundamentals concepts of computational biology and bioinformatics in parallel to gaining actual skills in computing and the ability to write your own Python programs! What I love about the book is how the authors ensure the concepts and skills are applicable to a clear and defined biological problem. The authors help demystify the various topics and bring the reader to understand the algorithms behind the programming tools by applying these to resolve an actual biological problem. This book is also an excellent resource for those involved in training and education, and it provides plenty of exercise to use in the actual classroom.' Maria Victoria Schneider, The Genome Analysis Centre (TGAC), UK

    'There is a wide agreement that biological science curricula should change and that a better understanding of computational notions and practice is required, starting at undergraduate level. Only a handful of academic programs, and fewer textbooks, are offering such computational experience to life science students, beyond a general introductory programming course. Libeskind-Hadas and Bush take a novel, exciting approach to this challenge. They designed an introductory programming and computer science principles course, using Python, and built around a carefully selected suit of computational problems with a biological motivation. The book covers all basic notions and programming practices that are taught in standard CS introductory course, and even adds some advanced computational ideas. Most importantly, it will be far more friendly and relevant to the vast majority of life science students, who are likely to discover through it both the beauty of computer science and its relevance to their own discipline.' Benny Chor, Tel-Aviv University, Israel

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    Product details

    • Date Published: October 2014
    • format: Adobe eBook Reader
    • isbn: 9781316056592
    • contains: 8 b/w illus. 33 colour illus. 1 table
    • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • Table of Contents

    Preface
    Meet python
    Part I. Python versus Pathogens:
    1. Computing GC content
    2. Pathogenicity islands
    3. Open reading frames and genes
    4. Finding genes (at last!)
    Part II. Sequence Alignment and Sex Determination:
    5. Recursion
    6. The use-it-or-lose-it principle
    7. Dictionaries, memoization, and speed
    8. Sequence alignments and the evolution of sex chromosomes
    Part III. Phylogenetic Reconstruction and the Origin of Modern Humans:
    9. Representing and working with trees
    10. Drawing trees
    11. The UPGMA algorithm
    Part IV. Additional Topics:
    12. RNA secondary structure prediction
    13. Gene regulatory networks and the maximum likelihood method
    14. Birds, bees, and genetic algorithms
    Where to go from here
    Index.

  • Resources for

    Computing for Biologists

    Ran Libeskind-Hadas, Eliot Bush

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  • Authors

    Ran Libeskind-Hadas, Harvey Mudd College, California
    Ran Libeskind-Hadas is the R. Michael Shanahan Professor of Computer Science at Harvey Mudd College, USA, working in the areas of algorithms and computational biology. He is a recipient of both the Iris and Howard Critchell Professorship and the Joseph B. Platt Professorship for teaching, as well as the Distinguished Alumni Educator Award from the University of Illinois, Urbana-Champaign Department of Computer Science.

    Eliot Bush, Harvey Mudd College, California
    Eliot Bush is Associate Professor of Biology at Harvey Mudd College, USA. His main research interest is the study of evolution. Among other things he has modeled the evolution of metabolism, characterized DNA methylation patterns in insects, developed algorithms for studying substitution bias in DNA, and analyzed a 30-million-year-old primate fossil. His teaching interests focus on incorporating computers and programming assignments into biology coursework.

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