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Theoretical studies of cis‐Pt(II)‐diammine binding to duplex DNA
Sharon L. McCarthy
, Robert J. Hinde
, Kenneth J. Miller
, Janet S. Anderson
, Harold Basch
, Morris Krauss
Department of Chemistry
Rensselaer Polytechnic Institute
The University of Chicago
Union College
National Institute of Standards and Technology
Research output
:
Contribution to journal
›
Article
›
peer-review
21
Scopus citations
Overview
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Dive into the research topics of 'Theoretical studies of cis‐Pt(II)‐diammine binding to duplex DNA'. Together they form a unique fingerprint.
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Keyphrases
Duplex DNA
100%
Ammine
100%
Cispt
100%
Open Conformation
66%
Hydrogen Bonds (H-bonds)
66%
Phosphate Group
50%
Phosphate
33%
Sugar Pucker
33%
Molecular Mechanics Calculations
33%
Water Bridge
33%
Complex Site
16%
Kink
16%
Complex Formation
16%
Ligand Binding
16%
DNA Conformation
16%
Quantum Mechanical
16%
Quantum Mechanical Calculations
16%
Model Complex
16%
Experimental Determination
16%
Direct Binding
16%
Backbone Conformation
16%
Closed Conformation
16%
Complementary Strand
16%
Alternative Conformations
16%
Thymine
16%
Square-planar Complexes
16%
Calculation Model
16%
Intermediate Type
16%
Exo S
16%
Mechanical Mechanics
16%
Platination
16%
3' End
16%
Chemistry
Deoxyribonucleic Acid
100%
Hydrogen Bonding
80%
Phosphate Group
60%
Molecular Mechanics Calculation
40%
Crystal Structure
20%
Energetics
20%
Thymine
20%
Earth and Planetary Sciences
Theoretical Study
100%
Ammine
100%
Phosphate Group
50%
Crystal Structure
16%
Hydrogen Bond
16%
Complex Formation
16%
Biochemistry, Genetics and Molecular Biology
Conformation
100%
Molecular Mechanic
14%
Crystal Structure
7%
Ligand Binding
7%
Hydrogen Bond
7%
Thymine
7%
Dynamics
7%
Energy Transfer
7%
Complex Formation
7%
DNA Conformation
7%