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Energetics of the strand separation transition in superhelical DNA
Craig J. Benham
Icahn School of Medicine at Mount Sinai
Research output
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Contribution to journal
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Article
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peer-review
96
Scopus citations
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Dive into the research topics of 'Energetics of the strand separation transition in superhelical DNA'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
DNA Sequence
100%
DNA Supercoiling
100%
Conformation
100%
PBR322
100%
Energy Transfer
100%
Temperature Dependence
100%
Mechanical Torsion
100%
Keyphrases
Strand Separation
100%
Free Energy
57%
DNA Molecule
28%
Sequence Modification
28%
Relative Amount
28%
Theoretical Method
28%
Energy Parameters
28%
DNA Sequencing
14%
Operative
14%
Two-state Transition
14%
Biological Significance
14%
Single Strand
14%
Analytic Method
14%
Temperature Effect
14%
Alternative Conformations
14%
Monovalent Cations
14%
Deformable
14%
Temperature Variation
14%
Specific Sequences
14%
Circular DNA
14%
Torsional Stiffness
14%
PBR322 DNA
14%
Molecular Length
14%
Cation Concentration
14%
Linking number
14%
T-310
14%
Chemistry
Deoxyribonucleic Acid
100%
Energetics
100%
Free Energy
100%
Energy Parameter
50%
Monoatomic Monocation
25%
Pair-Base
25%
DNA Sequence
25%
Engineering
Strand
100%
Energetics
100%
Energy Engineering
50%
Theoretical Method
25%
Relative Amount
25%
State Transition
12%
Mols
12%
Temperature Dependence
12%
Cooperative
12%
Material Science
DNA Sequence
100%