The second edition of this popular title presents the most exciting approaches for engineering biologically active nanostructures. A particular stress is placed on purely artificial assemblies created to deliver a specialist biological function or mechanism. Such synthetic designs emulate naturally occurring nanoscale forms of viruses and matrices, pores and channels, but their functional properties are not necessarily those normally observed in Nature. Therefore, it is said that the forms may be same, but functions they adopt are new. The volume is structured around prominent topics of biological nanodesign with an integrated perspective of the impact nanoscale engineering has on the emerging field of synthetic biology. Nanostructured materials assembled from DNA, proteins and lipids and advances they offer for medicine are discussed. Written by a world recognised expert, this book provides an authorative guide to those working in design and development of nanomaterial research in industry and academia, from postgraduate researchers upwards.
Inhaltsverzeichnis
Introductory Notes;
DNA as a Self-programming Module for Nanodesigns;
Bioinspired Nanodesigns for Molecular Encapsulation;
Nanoscale Designs for Tissue Regeneration;
Concluding Remarks
Über den Autor
Max Ryadnov leads Biometrology research area at NPL. He is also a visiting Professor at King’s College London and a Fellow of the Royal Society of Chemistry and the Royal Society of Biology. Max obtained his MSc in Biochemistry (summa cum laude) from the Russian Academy of Sciences and Ph D in Chemistry from Moscow State University. Following his academic tenures at Bristol (URF) and Leicester (Lecturer), he joined NPL as a Principal Research Scientist in 2010. Over the last 10 years, his contributions to physical and life sciences have been recognised by a NESTA Crucible Innovation Award, a SUPA lectureship in Chemical Physics with the University of Edinburgh and Fellowships in the Royal Society of Chemistry and the Royal Society of Biology. He has authored over 100 peer-reviewed publications (incl. primary reports in Angew Chem, JACS, Nature Mater, Nature Commun, PNAS), numerous book chapters, two books, several international patents, and is a co-editor of two RSC book series – Amino Acids, Peptides and Proteins and Synthetic Biology.