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Bayesian Inference for Gene Expression and Proteomics

£46.99

Keith Baggerly, Kevin Coombes, Jeffrey S. Morris, Michael Newton, Ping Wang, Christina Kendziorski, Anne-Mette K. Hein, Alex Lewin, Sylvia Richardson, Mark A. van de Wiel, Marit Holden, Ingrid K. Glad, Heidi Lyng, Arnoldo Frigessi, Mahlet Tadesse, Marina Vannucci, Naijun Sha, Sinae Kim, Veerabhadran Baladandayuthapani, Chris C. Holmes, Bani K. Mallick, Raymond J. Carroll, Elizabeth Garrett-Mayer, Robert Scharpf, Joseph Lucas, Carlos Carvalho, Quanli Wang, Andrea Bild, Joseph Nevins, Mike West, Chuan Zhou, Jon Wakefield, Linda L. Breeden, David Dahl, Meng Chen, Michele Guindani, Kim-Anh Do, Peter Müller, Philip J. Brown, Merlise Clyde, Leanna House, Robert Wolpert, Mayetri Gupta, Jun S. Liu, Deuk Woo Kwon, Michael Swartz, Ning Sun, Hongyu Zhao, Andrew V. Kossenkov, Ghislain Bidaut, Michael Ochs, Bradley Broom, Devika Subramanian, Alexander J. Hartemink, Christian Robert, Judith Rousseau
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  • Date Published: July 2012
  • availability: Available
  • format: Paperback
  • isbn: 9781107636989

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  • The interdisciplinary nature of bioinformatics presents a research challenge in integrating concepts, methods, software and multiplatform data. Although there have been rapid developments in new technology and an inundation of statistical methods for addressing other types of high-throughput data, such as proteomic profiles that arise from mass spectrometry experiments. This book discusses the development and application of Bayesian methods in the analysis of high-throughput bioinformatics data that arise from medical, in particular, cancer research, as well as molecular and structural biology. The Bayesian approach has the advantage that evidence can be easily and flexibly incorporated into statistical methods. A basic overview of the biological and technical principles behind multi-platform high-throughput experimentation is followed by expert reviews of Bayesian methodology, tools and software for single group inference, group comparisons, classification and clustering, motif discovery and regulatory networks, and Bayesian networks and gene interactions.

    • Features novel Bayesian methods for the analysis of high throughput bioinformatics data
    • Includes applications to translational research
    • Includes numerous special case studies
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    Reviews & endorsements

    'A text that has a systematic account of Bayesian analysis in computational biology has been needed for a long time. This book is a timely publication entirely devoted to cutting-edge Bayesian methods in genomics and proteomics research and many of its contributors are leading authorities in the field. It is thus an indispensable reference for researchers who are interested in applying Bayesian techniques in their own biological research.' Ping Ma, University of Illinois, Urbana-Champaign

    '… an authoritative volume … presents the state of the art statistical techniques that are starting to make an impact at the forefronts of modern scientific discovery.' Journal of the RSS

    'A collection of 22 high quality chapters, authored by several distinguished groups of academic researchers … researchers and students will appreciate an authoritative volume like the present.' Z. Q. John Lu, National Institute of Standards and Technology, Gaithersburg

    'The editors have done a great job keeping the writing of diverse authors readable without great redundancy … This book should be required reading for all graduate students of statistics, statistical researchers in this field, and students and researchers in other fields that use these technologies.' Tapabrata Maita, Journal of the American Statistician

    'Overall, I find this text an excellent contribution to the literature on statistical methods for high throughput genomic and proteomic data analysis. The chapters are well written, the case studies are informative, and the range of topics covered is quite broad and generally logically grouped. I would highly recommend this text to both those people already working in the area and those wanting to break in. It is not only suitable for researchers developing their own methodologies but also for applied quantitative scientists looking for the most cutting-edge tools to analyze their high throughput datasets.' J. Sunil Rao, Biometrics

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    Product details

    • Date Published: July 2012
    • format: Paperback
    • isbn: 9781107636989
    • length: 456 pages
    • dimensions: 221 x 141 x 25 mm
    • weight: 0.57kg
    • contains: 22 tables
    • availability: Available
  • Table of Contents

    1. An introduction to high-throughput bioinformatics data Keith Baggerly, Kevin Coombes and Jeffrey S. Morris
    2. Hierarchical mixture models for expression profiles Michael Newton, Ping Wang and Christina Kendziorski
    3. Bayesian hierarchical models for inference in microarray data Anne-Mette K. Hein, Alex Lewin and Sylvia Richardson
    4. Bayesian process-based modeling of two-channel microarray experiments estimating absolute mRNA concentrations Mark A. van de Wiel, Marit Holden, Ingrid K. Glad, Heidi Lyng and Arnoldo Frigessi
    5. Identification of biomarkers in classification and clustering of high-throughput data Mahlet Tadesse, Marina Vannucci, Naijun Sha and Sinae Kim
    6. Modeling nonlinear gene interactions using Bayesian MARS Veerabhadran Baladandayuthapani, Chris C. Holmes, Bani K. Mallick and Raymond J. Carroll
    7. Models for probability of under- and over-expression: the POE scale Elizabeth Garrett-Mayer and Robert Scharpf
    8. Sparse statistical modelling in gene expression genomics Joseph Lucas, Carlos Carvalho, Quanli Wang, Andrea Bild, Joseph Nevins and Mike West
    9. Bayesian analysis of cell-cycle gene expression Chuan Zhou, Jon Wakefield and Linda L. Breeden
    10. Model-based clustering for expression data via a Dirichlet process mixture model David Dahl
    11. Interval mapping for Expression Quantitative Trait Loci mapping Meng Chen and Christina Kendziorski
    12. Bayesian mixture model for gene expression and protein profiles Michele Guindani, Kim-Anh Do, Peter Müller and Jeffrey S. Morris
    13. Shrinkage estimation for SAGE data using a mixture Dirichlet prior Jeffrey S. Morris, Kevin Coombes and Keith Baggerly
    14. Analysis of mass spectrometry data using Bayesian wavelet-based functional mixed models Jeffrey S. Morris, Philip J. Brown, Keith Baggerly and Kevin Coombes
    15. Nonparametric models for proteomic peak identification and quantification Merlise Clyde, Leanna House and Robert Wolpert
    16. Bayesian modeling and inference for sequence motif discovery Mayetri Gupta and Jun S. Liu
    17. Identifying of DNA regulatory motifs and regulators by integrating gene expression and sequence data Deuk Woo Kwon, Sinae Kim, David Dahl, Michael Swartz, Mahlet Tadesse and Marina Vannucci
    18. A misclassification model for inferring transcriptional regulatory networks Ning Sun and Hongyu Zhao
    19. Estimating cellular signaling from transcription data Andrew V. Kossenkov, Ghislain Bidaut and Michael Ochs
    20. Computational methods for learning Bayesian networks from high-throughput biological data Bradley Broom and Devika Subramanian
    21. Modeling transcriptional regulation: Bayesian networks and informative priors Alexander J. Hartemink
    22. Sample size choice for microarray experiments Peter Müller, Christian Robert and Judith Rousseau.

  • Editors

    Kim-Anh Do, University of Texas, MD Anderson Cancer Center
    Kim-Anh Do is a Professor in the Department of Biostatistics and Applied Mathematics at the University of Texas M. D. Anderson Cancer Center. Her research interests are in computer-intensive statistical methods with recent focus in the development of methodology and software to analyze data produced from high-throughput optimization.

    Peter Müller, Swiss Federal Institute of Technology, Zürich
    Peter Müller is a Professor in the Department of Biostatistics and Applied Mathematics at the University of Texas M. D. Anderson Cancer Center. His research interests and contributions are in the areas of Markov chain Monte Carlo posterior simulation, nonparametric Bayesian inference, hierarchical models, mixture models and Bayesian decisions problems.

    Marina Vannucci, Rice University, Houston
    Marina Vannucci is a Professor of Statistics at Rice University. Her research focuses on the theory and practice of Bayesian variable selection techniques and on the development of wavelet-based statistical models and their applications. Her work is often motivated by real problems that need to be addressed with suitable statistical methods.

    Contributors

    Keith Baggerly, Kevin Coombes, Jeffrey S. Morris, Michael Newton, Ping Wang, Christina Kendziorski, Anne-Mette K. Hein, Alex Lewin, Sylvia Richardson, Mark A. van de Wiel, Marit Holden, Ingrid K. Glad, Heidi Lyng, Arnoldo Frigessi, Mahlet Tadesse, Marina Vannucci, Naijun Sha, Sinae Kim, Veerabhadran Baladandayuthapani, Chris C. Holmes, Bani K. Mallick, Raymond J. Carroll, Elizabeth Garrett-Mayer, Robert Scharpf, Joseph Lucas, Carlos Carvalho, Quanli Wang, Andrea Bild, Joseph Nevins, Mike West, Chuan Zhou, Jon Wakefield, Linda L. Breeden, David Dahl, Meng Chen, Michele Guindani, Kim-Anh Do, Peter Müller, Philip J. Brown, Merlise Clyde, Leanna House, Robert Wolpert, Mayetri Gupta, Jun S. Liu, Deuk Woo Kwon, Michael Swartz, Ning Sun, Hongyu Zhao, Andrew V. Kossenkov, Ghislain Bidaut, Michael Ochs, Bradley Broom, Devika Subramanian, Alexander J. Hartemink, Christian Robert, Judith Rousseau

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