Plant gravitropism : methods and protocols

This volume provides the plant scientific community with a collection of established and recently developed experimental protocols to study plant gravitropism. The first few chapters in this book discuss topics such as methods to properly orient plant material for gravitropism studies; protocols for data collection and image analysis; and techniques to investigate ion, organelle, and auxin transporter dynamics, particularly in living cells, as the plant is responding to a change in its orientation. The next few chapters talk about topics that are essential for understanding the complexities underlying tropisms and plant movements in general, and outline basic protocols on handling ornamental flowering shoots for basic plant gravitropism studies. The book concludes with chapters that discuss plant biological studies in space in order to take advantage of unique microgravity conditions not available in Earth-based studies. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Informative and cutting-edge, Plant Gravitropism is the perfect book for researchers in the plant scientific community because it is not only useful for plant gravitropism studies, but also addresses a range of interesting problems in plant growth and development.

1. Immunohistochemistry Relative to Gravity: A Simple Method to Retain Information About Gravity for Immunolocalization and Histochemistry Benjamin R. Harrison and Patrick H. Masson 2. A Flat Embedding Method to Orient Thin Biological Samples for Sectioning Utku Avci and Jin Nakashima 3. Quantification of Root Gravitropic Response Using a Constant Stimulus Feedback System Chris Wolverton 4. The Analysis of Gravitropic Setpoint Angle Control in Arabidopsis Suruchi Roychoudhry and Stefan Kepinski 5. Imaging of Dynamic Ion Signaling During Root Gravitropism Gabriele B. Monshausen 6. Live Cell Imaging of Cytoskeletal and Organelle Dynamics in Gravity-Sensing Cells in Plant Gravitropism Moritaka Nakamura, Masatsugu Toyota, Masao Tasaka, and Miyo Terao Morita 7. Auxin Carrier and Signaling Dynamics During Gravitropic Root GrowthMugurel I. Feraru, Jurgen Kleine-Vehn, and Elena Feraru 8. Imaging and Quantitative Methods for Studying Cytoskeletal Rearrangements during Root Development and Gravitropism Eveline Jacques, Darren Wells, Malcolm J. Bennett, and Kris Vissenberg 9. Methods for RNA Profiling of Gravi-Responding Plant Tissues Jyoti Dalal, Eric Land, Naresh Vasani, Luyan He, Caroline Smith, Maria Rodriguez-Welsh, Imara Y. Perera, and Heike Sederoff 10. Proteomic Approaches and their Application to Plant Gravitropism Proma Basu, Darron R. Luesse, and Sarah E. Wyatt 11. Assays for Root Hydrotropism and Response to Water Stress Delfeena Eapen, Jesus J. Martinez, and Gladys I. Cassab 12. Evaluating Mechano-Transduction and Touch Responses in Plant Roots Sarah J. Swanson, Richard Barker, Yonggeng Ye, and Simon Gilroy 13. Expressing and Characterizing Mechanosensitive Channels in Xenopus Oocytes Grigory Maksaev and Elizabeth S. Haswell 14. Flowering Shoots of Ornamental Crops as a Model to Study Cellular and Molecular Aspects of Plant Gravitropism Sonia Philosoph-Hadas, Haya Friedman, and Shimon Meir 15. Studying Molecular Changes During Gravity Perception and Response in a Single Cell Ashley E. Cannon, Mari L. Salmi, Thomas J. Bushart, and Stanley J. Roux 16. Live Cell and Immuno-Labeling Techniques to Study Gravitational Effects on Single Plant Cells Youssef Chebli and Anja Geitmann 17. Use of High Gradient Magnetic Fields to Evaluate Gravity Perception and Response Mechanisms in Plants and Algae Karl H. Hasenstein 18. Use of Microgravity Simulators for Plant Biological Studies Raul Herranz, Miguel A. Valbuena, Aranzazu Manzano, Khaled Youssef, and F. Javier Medina 19. Conducting Plant Experiments in Space John Z. Kiss 20. Spaceflight Exploration in Plant Gravitational Biology Anna-Lisa Paul and Robert J. Ferl 21. Hypergravity Experiments to Evaluate Gravity Resistance Mechanisms in Plants Kouichi Soga, Sachiko Yano, Shouhei Matsumoto, and Takayuki Hoson