Biophysics: Tools and Techniques for the Physics of Life covers the experimental, theoretical,
and computational tools and techniques of biophysics. It addresses the purpose, science,
and application of all physical science instrumentation, theoretical analysis, and biophysical
computational methods used in current research labs.
The book first presents the historical background, concepts, and motivation for using a
physical science toolbox to understand biology. It then familiarizes undergraduate students
from the physical sciences with essential biological knowledge.
The text subsequently focuses on experimental biophysical techniques that primarily
detect biological components or measure/control biological forces. The author describes the
science and application of key tools used in imaging, detection, general quantitation, and
biomolecular interaction studies, which span multiple length and time scales of biological
processes both in the test tube and in the living organism.
Moving on to theoretical and computational biophysics tools, the book presents analytical
mathematical methods and numerical simulation approaches for tackling challenging bio
logical questions including exam-style questions at the end of each chapter as well as step-by-
step solved exercises. It concludes with a discussion of the future of this exciting field.
Future innovators will need to be trained in multidisciplinary science to be successful in
industry, academia, and government support agencies. Addressing this challenge, this text
book educates future leaders on the development and application of novel physical science
approaches to solve complex problems linked to biological questions.
Features:
•
Provides the full, modern physical science toolbox of experimental, theoretical, and
computational techniques, such as bulk ensemble methods, single-molecule tools, live-
cell and test tube methods, pencil-on-paper theory approaches, and simulations.
•
Incorporates worked examples for the most popular physical science tools by providing
full diagrams and a summary of the science involved in the application of the tool.
•
Reinforces the understanding of key concepts and biological questions.
A solutions manual is available on adoption of qualifying course.
Mark C. Leake holds the Anniversary Chair of Biological Physics and is the Coordinator
of the Physics of Life Group at the University of York. He is also Chair of the UK Physics
of Life Network (PoLNET). He heads an interdisciplinary research team in the field of
single-molecule biophysics using cutting-edge biophotonics, state-of-the-art genetics, and
advanced computational and theory tools. His work is highly cited, and he has won many
fellowships and prizes.
Biophysics