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DNA ORIGAMI Discover the impact and multidisciplinary applications of this subfield of DNA nanotechnology DNA origami refers to the technique of assembling single-stranded DNA template molecules into target two- and three-dimensional shapes at the nanoscale. This is accomplished by annealing templates with hundreds of DNA strands and then binding them through the specific base-pairing of complementary bases. The inherent properties of these DNA molecules—molecular recognition, self-assembly, programmability, and structural predictability—has given rise to intriguing applications from drug delivery systems to uses in circuitry in plasmonic devices. The first book to examine this important subfield, DNA Origami brings together leading experts from all fields to explain the current state and future directions of this cutting-edge avenue of study. The book begins by providing a detailed examination of structural design and assembly systems and their applications. As DNA origami technology is growing in popularity in the disciplines of chemistry, materials science, physics, biophysics, biology, and medicine, interdisciplinary studies are classified and discussed in detail. In particular, the book focuses on DNA origami used for creating new functional materials (combining chemistry and materials science; DNA origami for single-molecule analysis and measurements (as applied in physics and biophysics); and DNA origami for biological detection, diagnosis and therapeutics (medical and biological applications). DNA Origami readers will also find: A complete guide for newcomers that brings together fundamental and developmental aspects of DNA origami technology Contributions by a leading team of experts that bring expert views from different angles of the structural developments and applications of DNA origami An emerging and impactful research topic that will be of interest in numerous multidisciplinary areas A helpful list of references provided at the end of each chapter to give avenues for further study Given the wide scope found in this groundbreaking work, DNA Origami is a perfect resource for nanotechnologists, biologists, biophysicists, chemists, materials scientists, medical scientists, and pharmaceutical researchers.
Written by the founder of the field, this is a comprehensive and accessible introduction to structural DNA nanotechnology.
DNA nanotechnology: From structure to function presents an overview of various facets of DNA nanotechnology, with a particular focus on their promising applications. This book is composed of three parts. Part I, Elements of DNA Nanotechnology, provides extensive basic information on DNA nanotechnology. Part II, Static and Dynamic DNA Nanotechnology, describes the design and fabrication of static and dynamic DNA nanostructures. Recent advances in DNA origami, DNA walkers and DNA nanodevices are all covered in this part. Part III, Applications of DNA Nanotechnology, introduces a variety of applications of DNA nanotechnology, including biosensing, computation, drug delivery, etc. Together these provide a comprehensive overview of this emerging area and its broad impact on biological and medical sciences. This book is intended for post-graduates, post-doctoral researchers and research scientists who are interested in expanding their knowledge of DNA nanotechnology. It provides readers an impression of the latest developments in this exciting filed.
This second edition provides new and updated methods that detail new DNA nanotechnology techniques. Chapters focus on DNA origami nanostructures for arranging matter in the nanoscale or on their manipulation with the aid of other technologies, on procedures for making nucleic acids nanostructures of different kinds, and methods to simulate complex nanostructures or to use them in biosensing. 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. Authoritative and cutting-edge, DNA Nanotechnology: Methods and Protocols, Second Edition aims to ensure successful results in the further study of this vital field.
In this book, researchers at the forefront of the field explain the minimum necessary background knowledge and introduce important topics in molecular robotics in an easy-to-understand manner.Molecular robotics is related to many fields, such as systems engineering, control engineering, computer science, biochemistry, biophysics, polymer chemistry, nucleic acid chemistry, molecular biology, and ethics. The whole picture of molecular robotics can be grasped only by looking at these fields from a bird's-eye view. This book has been planned in the belief that such a book is essential for students and those new to the field to understand the ongoing expansion of molecular robotics.The book consists of eight chapters: introduction, design theory of molecular robots, systemization technology, molecular nanotechnology, molecular actuators, molecular materials, medical applications, and social acceptance. In each chapter, the reader can get a general idea of the theory, underlying technology, medical applications, and social issues, and can also understand what is currently being done on the research front. In addition, there are many parts that introduce topics related to molecular robotics.
A thorough overview of nanobiotechnology and its place in advances in applied science and engineering, The Nanobiotechnology Handbook combines contributions from physics, bioorganic and bioinorganic chemistry, molecular and cellular biology, materials science, and medicine as well as from mechanical, electrical, chemical, and biomedical engineering to address the full scope of current and future developments. World-class experts discuss the role of nanobiotechnology in bioanalysis, biomolecular and biomedical nanotechnology, biosensors, biocatalysis and biofuel, and education and workforce development. It includes a companion CD that contains all figures in the book. The book begins with discussions of biomimetic nanotechnology, including a comprehensive overview of DNA nanostructure and DNA-inspired nanotechnology, aptamer-functionalized nanomaterials as artificial antibodies, artificial enzymes, molecular motors, and RNA structures and RNA-inspired nanotechnology. It shows how nanotechnology can be inspired by nature as well as adverse biological events in diagnostic and therapeutic development. From there, the chapters cover major important and widely used nanofabrication techniques, applications of nanotechnology for bioprocessing followed by coverage of the applications of atomic force microscopy (AFM), optical tweezers and nanofluidics as well as other nanotechnology-enabled biomolecular and cellular manipulation and detection. Focusing on major research trends, the book highlights the importance of nanobiotechnology to a range of medical applications such as stem cell technology and tissue engineering, drug development and delivery, imaging, diagnostics, and therapeutics. And with coverage of topics such as nanotoxicity, responsible nanotechnology, and educational and workforce development, it provides a unique overview and perspective of nanobiotechnology impacts from a researcher’s, entrepreneur’s, economist’s and educator’s point of view. It provides a resource for current applications and future development of nanobiotechnology.
The book focuses on the application of nanotechnologies in scaffold-guided tissue regeneration and in drug delivery systems for use in immunotherapy and overcoming drug resistance in cancer treatment. It covers a variety of topics, including nanomaterials for immunomodulation and immnunotherapy; molecular studies on self-assembly for peptides and DNA and related applications in tumor diagnosis and therapeutics and against human pathogenic bacteria; magnetic and conductive scaffolds for guiding tissue regeneration; multiple functions of magnetic nanoparticles in drug delivery and regenerative medicine; and re-purposing of traditional medicine in nano-formulations. In addition, it discusses common effects of nanomaterials, including reactive oxygen species and protein corona. Providing valuable insights and the presenting the latest research advances, the book allows readers to gain a systematic understanding of the topic.
World Scientific Reference on Plasmonic Nanomaterials: Principles, Design and Bio-applications is a book collection that encompasses multiple aspects of the exciting and timely field of nanoplasmonics, under the coordination of international plasmonic nanomaterials expert, Dr Luis Liz-Marzán. Plasmonics has a long history, from stained glass in ancient cathedrals, through pioneering investigations by Michael Faraday, all the way into the nanotechnology era, where it blossomed into an extremely active field of research with potential applications in a wide variety of technologies.Given the breadth of the materials, phenomena and applications related to plasmonics, this Reference Set offers a collection of chapters within dedicated volumes, focusing on the description of selected phenomena, with an emphasis in chemistry as an enabling tool for the fabrication of, often sophisticated, plasmonic nanoarchitectures and biomedicine as the target application.Basic principles of surface plasmon resonances are described, as well as those mechanisms related to related phenomena such as surface-enhanced spectroscopies or plasmonic chirality. Under the guidance of theoretical models, wet chemistry methods have been implemented toward the synthesis of a wide variety of nanoparticles with different compositions and tailored morphology. But often the optimal nanoarchitecture requires post-synthesis treatments, including functionalization of nanoparticle surfaces, application of external stimuli toward self-assembly into well-defined supraparticle structures and so-called supercrystals. All such nanomaterials can find applications in various biomedical aspects, most often in relation to diagnosis, through either the detection of disease biomarkers at extremely low concentrations or the design of bioimaging methods for in vivo monitoring. Additionally, novel therapeutic tools can also profit from plasmonic nanomaterials, such as photothermal therapy or nanocatalysis.The reference set thus offers comprehensive information of an extremely active subset within the world of plasmonic nanomaterials and their applications, which aims at not just collecting existing knowledge but also promoting further research and technology transfer into the market and the clinic.
This book discusses the biological, technical and study-design challenges of Nanopharmaceuticals. Chapters of this book are dedicated to supermagentic iron oxide nanoparticles for the diagnosis of brain, breast, gastric, ovarian, liver, colorectal, lung and pancreatic cancers. It also includes a brief introduction to magnetic resonance imaging and ends with the future prospective of iron oxide nanoparticles in cancer detection. The book also provides a critical discussion on ‘Computational sequence design for DNA nanostructures’ and gives a brief introduction about the skin delivery. A detailed discussion has been included about the different types of nanocarriers such as micells, microemulsions, nanoemulsions, polymeric and lipid based nanoparticles. Focussing on the safety concerns of nanomedicine it also covers the safety issues, clinical benefits, ecotoxicity and regulatory frame work of nanopharmaceuticals.
Targeted Nanomedicine for Breast Cancer Therapy provides a compilation of treatment approaches for breast cancer, including conventional receptor targeting methods and novel strategies like stimuli responsive methods and tumor micro-environment responsive strategies. This book compiles the most important information on the state-of-the-art therapeutics, including breast cancer biomarkers and design principles of bio-responsive nanosystems. Presented in two parts, sections cover basic and receptor mediated targeting approaches and examine tumor microenvironment mediated approaches. This is a useful book for pharmaceutical scientists and basic and clinical scientists working in the research area of breast cancer and drug discovery both from academics and industry.Worldwide, breast cancer is the most common cancer in women, however, breast cancer therapy is always challenging. This book aims to help researchers remain updated on the most targeted nanomedicine research available. - Highlights promising breast cancer targets to help design nanomedicines and stimuli-triggered methods for cancer imaging and treatments - Provides in-depth exploration of targeted breast cancer therapy, along with highlights to quickly understand the most important points - Explores cutting-edge research in the area of targeted nanomedicine and drug delivery, including nanotheranostics for breast cancer therapy