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  • © 2019

DNA Systems Under Internal and External Forcing

An Exploration Using Coarse-Grained Modelling

Authors:

  1. Megan Clare Engel

    1. John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, USA

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  • Nominated as an outstanding Ph.D. thesis by the Rudolf Peierls Centre for Theoretical Physics, University of Oxford, UK
  • Presents a new method for calculating polymer entropic forces in coarse-grained models that can overcome pitfalls associated with commonly-used techniques
  • Provides an informative introduction to the use of non-equilibrium analyses with coarse-grained biophysical models along with practical guidelines for applying them
  • Maps the unfolding process of DNA origami nanostructures through detailed colour illustrations and analysis, shedding light on design principles

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (6 chapters)

  1. Front Matter

    Pages i-xv
    PDF

  2. Introduction

    • Megan Clare Engel
    Pages 1-17

  3. Simulation Methods

    • Megan Clare Engel
    Pages 19-24

  5. Force-Induced Unravelling of DNA Origami

    • Megan Clare Engel
    Pages 69-93

  6. Measuring Internal Forces in Single-Stranded DNA

    • Megan Clare Engel
    Pages 95-125

  7. Conclusions

    • Megan Clare Engel
    Pages 127-130

  8. Back Matter

    Pages 131-144
    PDF
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About this book

The interactions of DNA with force are central to manifold fields of inquiry, including the de novo design of DNA nanostructures, the use of DNA to probe the principles of biological self-assembly, and the operation of cellular nanomachines. This work presents a survey of three distinct ways coarse-grained simulations can help characterize these interactions. A non-equilibrium energy landscape reconstruction technique is validated for use with the oxDNA model and a practical framework to guide future applications is established. A novel method for calculating entropic forces in DNA molecules is outlined and contrasted with existing, flawed approaches. Finally, a joint experimental-simulation study of large DNA origami nanostructures under force sheds light on design principles and, through vivid illustrations, their unfolding process. This text provides an accessible and exciting launching point for any student interested in the computational study of DNA mechanics and force interactions.
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Authors and Affiliations

  • John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, USA

    Megan Clare Engel

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About the author

Megan holds a DPhil in Theoretical Physics from the University of Oxford, which she completed on a Rhodes Scholarship, in addition to a BSc in Astrophysics with first class honours and a Masters in Physics, both from the University of Alberta in Canada. Her multidiscplinary interests have yielded diverse publications, including physics education research papers and book reviews in Science magazine, and she has worked in both experimental and theoretical capacities. Megan is currently a Killam postdoctoral fellow at the University of Alberta, where she continues to use coarse-grained modelling to explore how biological systems exploit physical laws.
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Buy it now

eBook USD 84.99
Price excludes VAT (USA)
  • Available as EPUB and PDF
  • Read on any device
  • Instant download
  • Own it forever
Softcover Book USD 109.99
Price excludes VAT (USA)
  • Compact, lightweight edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info
Hardcover Book USD 109.99
Price excludes VAT (USA)
  • Durable hardcover edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info

Tax calculation will be finalised at checkout

Other ways to access

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