Interest in RNA nanotechnology has increased in recent years as recognition of its potential for applications in nanomedicine has grown. Edited by the world's foremost experts in nanomedicine, this comprehensive, state-of-the-art reference details the latest research developments and challenges in the biophysical and single molecule approaches in RNA nanotechnology. In addition, the text also provides in-depth discussions of RNA structure for nanoparticle construction, RNA computation and modeling, single molecule imaging of RNA, RNA nanoparticle assembly, RNA nanoparticles in therapeutics, immunorecognition of RNA nanomaterials, RNA chemistry for nanoparticle synthesis, and conjugation and labeling. Presents the latest research and discoveries in RNA nanotechnology Features contributions from world-class experts in the field Covers RNA nanoparticles in therapeutics Describes self-assembled RNA nanoparticles

This volume details protocols for computer-assisted design and experimental characterization of RNA nanostructures. Chapters guide readers through RNA nanotechnology, design and characterization of RNA nanostructures, assessment of immunology of nanomaterials, biosensing and drug delivery, various biomedical applications, and delivery approaches for therapeutic RNA nanoparticles. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols.    Authoritative and cutting-edge, RNA Nanostructures: Design, Characterization, and Applications aims to address essential topics and concerns in the growing field of RNA nanotechnology. 

The unknown immune properties of nucleic acid nanoparticles have been a major hurdle in their adaptation until the works herein began assessing their structure-activity relationships. This collection chronologically follows the path of investigating the recognition of design components to implementing them into nucleic acid nanostructures.