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Brownian dynamics simulations of single-stranded DNA hairpins
Martin Kenward,
Kevin D. Dorfman
Chemical Engineering and Materials Science
Research output
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Contribution to journal
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Article
›
peer-review
37
Scopus citations
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Dive into the research topics of 'Brownian dynamics simulations of single-stranded DNA hairpins'. Together they form a unique fingerprint.
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Keyphrases
Thermodynamics
100%
Single-stranded DNA (ssDNA)
100%
Brownian Dynamics Simulation
100%
Hairpin DNA
100%
Hairpin
66%
Melting Transition
66%
Low Temperature
33%
Probability Distribution
33%
DNA Sequencing
33%
Single Molecule
33%
Dynamic Model
33%
Melting Temperature
33%
Kinetic Data
33%
Kinetic Rate
33%
Chain End
33%
Sugar-phosphate Backbone
33%
Single Unit
33%
Base Stacking
33%
Computational Scheme
33%
Basis Mismatch
33%
Hairpin Formation
33%
Hydrogen Temperature
33%
Dimensionless Form
33%
Brownian Dynamics
33%
Minimal number
33%
Opening Rate
33%
Relative Shift
33%
Default Prediction
33%
Hydrogen Bonds (H-bonds)
33%
Biochemistry, Genetics and Molecular Biology
Single-Stranded DNA
100%
Melting Point
100%
DNA Hairpin
100%
Computer Simulation
100%
Dynamics
33%
Sugar Phosphate
33%
Probability Distribution
33%
Melting Temperature
33%