THE ROLE OF BIOINFORMATICS IN AGRICULTURE RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd ii 11//77//22001144 44::0011::0066 AAMM RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd iiii 11//77//22001144 44::0011::4400 AAMM THE ROLE OF BIOINFORMATICS IN AGRICULTURE Edited by Santosh Kumar, PhD Apple Academic Press TORONTO NEW JERSEY RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd iiiiii 11//77//22001144 44::0011::4400 AAMM CRC Press Apple Academic Press, Inc Taylor & Francis Group 3333 Mistwell Crescent 6000 Broken Sound Parkway NW, Suite 300 Oakville, ON L6L 0A2 Boca Raton, FL 33487-2742 Canada © 2014 by Apple Academic Press, Inc. 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Except as permitted under U.S. Copyright Law, no part of this book may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying, microfilming, and recording, or in any information storage or retrieval system, without written permission from the publishers. For permission to photocopy or use material electronically from this work, please access www. copyright.com (http://www.copyright.com/) or contact the Copyright Clearance Center, Inc. (CCC), 222 Rosewood Drive, Danvers, MA 01923, 978-750-8400. CCC is a not-for-profit organiza- tion that provides licenses and registration for a variety of users. For organizations that have been granted a photocopy license by the CCC, a separate system of payment has been arranged. Trademark Notice: Product or corporate names may be trademarks or registered trademarks, and are used only for identification and explanation without intent to infringe. Visit the Taylor & Francis Web site at http://www.taylorandfrancis.com and the CRC Press Web site at http://www.crcpress.com For information about Apple Academic Press product http://www.appleacademicpress.com ABOUT THE EDITOR Santosh Kumar, PhD Research Associate in Plant Science, University of Manitoba, Canada Dr. Santosh Kumar obtained his BSc Agriculture degree in plant breed- ing from Punjab Agricultural University, Ludhiana, India. He obtained his MSc working on wheat phytosiderophores from the Indian Agricultural Research Institute, New Delhi, India, and PhD working on control of flow- ering and germination in barley from University of Manitoba, Canada. At present, Dr. Kumar is stationed at the Cereal Research Centre, Manitoba, Canada, working for the University of Manitoba. Dr. Kumar has studied various disciplines in plant sciences and received many awards through- out his academic career. His current interests include crop genomics and bioinformatics. Dr. Kumar is member of various plant science societies in Canada and the US. Dr. Kumar has publications that include research articles, a review paper, and a book chapter in areas of plant physiology, genetics, and bioinformatics. RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd vv 11//77//22001144 44::0011::4400 AAMM RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd vvii 11//77//22001144 44::0011::4400 AAMM CONTENTS Acknowledgment and How to Cite ..................................................xi List of Contributors .........................................................................xi Introduction ....................................................................................xix Part I: Genome Data Mining Through Modern Sequencing Technologies 1. Comparison of Next-Generation Sequencing Systems ............................1 Lin Liu, Yinhu Li, Siliang Li, Ni Hu, Yimin He, Ray Pong, Danni Lin, Lihua Lu, and Maggie Law 2. Why Assembling Plant Genome Sequences Is So Challenging ............27 Manuel Gonzalo Claros, Rocío Bautista, Darío Guerrero-Fernández, Hicham Benzerki, Pedro Seoane, and Noé Fernández-Pozo 3. Genome Walking by Next Generation Sequencing Approaches ..........55 Mariateresa Volpicella, Claudia Leoni, Alessandra Costanza, Immacolata Fanizza, Antonio Placido, and Luigi R. Ceci 4. Molecular Tools for Exploring Polyploid Genomes in Plants ...............73 Riccardo Aversano, Maria Raffaella Ercolano, Immacolata Caruso, Carlo Fasano, Daniele Rosellini, and Domenico Carputo 5. Wheat Genomics: Present Status and Future Prospects ................99 P. K. Gupta, R. R. Mir, A. Mohan, and J. Kumar 6. Development in Rice Genome Research Based on Accurate Genome Sequence ...................................................................................167 Takashi Matsumoto, Jianzhong Wu, Baltazar A. Antonio, and Takuji Sasaki 7. Genomic Databases for Crop Improvement ........................................189 Kaitao Lai, Michał T. Lorenc, and David Edwards RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd vviiii 11//77//22001144 44::0011::4400 AAMM viii Contents Part II: Going Beyond DNA Variations to Understand Environmental Adaptations 8. Uncovering the Complexity of Transcriptomes with RNA-Seq ........ 207 Valerio Costa, Claudia Angelini, Italia De Feis, and Alfredo Ciccodicola 9. Effi cient Experimental Design and Analysis Strategies for the Detection of Differential Expression Using RNA-Sequencing ........... 249 José A. Robles, Sumaira E. Qureshi, Stuart J. Stephen, Susan R. Wilson, Conrad J. Burden, and Jennifer M. Taylor 10. Analyzing the microRNA Transcriptome in Plants Using Deep Sequencing Data .....................................................................................281 Xiaozeng Yang and Lei Li 11. Maize (Zea mays L.) Genome Diversity as Revealed by RNA-Sequencing .....................................................................................299 Candice N. Hansey, Brieanne Vaillancourt, Rajandeep S. Sekhon, Natalia de Leon, Shawn M. Kaeppler, and C. Robin Buell 12. Molecular Mechanisms of Epigenetic Variation in Plants ..................327 Ryo Fujimoto, Taku Sasaki, Ryo Ishikawa, Kenji Osabe, Takahiro Kawanabe, and Elizabeth S. Dennis 13. Metagenomics: A Guide from Sampling to Data Analysis ..................357 Torsten Thomas, Jack Gilbert, and Folker Meyer Part III: Single Nucleotide Polymorphism Is the Ideal Marker 14. SNP Markers and Their Impact on Plant Breeding ............................387 Jafar Mammadov, Rajat Aggarwal, Ramesh Buyyarapu, and Siva Kumpatla 15. Genotyping-by-Sequencing in Plants ....................................................415 Stéphane Deschamps , Victor Llaca, and Gregory D. May Author Notes ...........................................................................................447 Index ........................................................................................................453 RRoollee ooff BBiiooiinnffoorrmmaattiiccss iinn AAggrriiccuullttuurree RREEVV..iinndddd vviiiiii 11//77//22001144 44::0011::4400 AAMM ACKNOWLEDGMENT AND HOW TO CITE The chapters in this book were previously published in various places and in various formats. By bringing them together here in one place, we offer the reader a comprehensive perspective on recent investigations into the role of bioinformatics in agriculture. Each chapter is added to and enriched by being placed within the context of the larger investigative landscape. Specifically: • Chapter 1 provides a description of hands-on experience with function- ing, accuracy, and cost of sequencing from second generation sequencers. The authors also discuss the applications of data generated through high throughput second generation sequencers. • Chapter 2 focuses on the typical challenges of plant genomes that explains why plant genomics is less developed than animal genomics. It provides a discussion on factors hindering accurate plant genome assembly. • Chapter 3 sheds light on the development of several protocols for the ap- plication of next generation sequencing technologies to genome walking. • Chapter 4 focuses on technologies and strategies that may allow an in-depth analysis of polyploid genomes. Origin and genetics of polyploids as well as the main tools available for genome and gene expression analysis are discussed. The implications of next generation sequencing in study of poly- ploids is also discussed. • Chapter 5 discusses the advances in wheat genomics and also describes the available resources which can be used for future genomics research; this review is important because wheat has a large genome and is a relatively difficult for genomics research. • Chapter 6 focuses on producing accurate genome sequences of rice and studying its functional and evolutionary implications for comparative ge- nomics • Chapter 7 is a concise list of plant genome databases, resources for indi- vidual crop improvement and potential course of action for future improve- ment of genome databases. • Chapter 8 surveys the RNA-Seq methods and the bioinformatics challenges that follow in analyzing the sequence data. • Chapter 9 provides insights into power and accuracy of differential gene estimation based on different experimental designs. 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