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Bloomfield, Victor A. - Department of Biochemistry, Molecular Biology and Biophysics, University of Minnesota
Entropy and Heat Capacity of DNA Melting from Temperature Dependence of Single Molecule Stretching
Crowding Effects on EcoRV Kinetics and Binding Jay R. Wenner and Victor A. Bloomfield
Tracer Diffusion of Proteins in DNA Solutions. 2. Green Fluorescent Protein in Crowded DNA Solutions
Z .Biophysical Chemistry 93 2001 53 65 Thermodynamics of the hydrophobic effect. II.
Salt Dependence of the Elasticity and Overstretching Transition of Single DNA Molecules
Excluded Volume in Solvation: Sensitivity of Scaled-Particle Theory to Solvent Size and Density
Effect of pH on the Overstretching Transition of Double-Stranded DNA: Evidence of Force-Induced DNA Melting
Heat Capacity Effects on the Melting of DNA. 2. Analysis of Nearest-Neighbor Base Pair Effects
Static and Dynamic Light Scattering from Aggregating
Heat Capacity Effects on the Melting of DNA. 1. General Aspects Ioulia Rouzina and Victor A. Bloomfield
1-Anilino-8-Naphthalene Sulfonate as a Protein
Dependence of the Raman Signature of Genomic B-DNA
Z .Biophysical Chemistry 93 2001 37 51 Thermodynamics of the hydrophobic effect.
Structural Effects of Cobalt-Amine Compounds on DNA Condensation Hong Deng and Victor A. Bloomfield
Thermodynamics of Cationic Lipid Binding to DNA and DNA Condensation: Roles of Electrostatics and Hydrophobicity
Thermodynamics of DNA Binding and Condensation: Isothermal Titration Calorimetry and
Force-Induced Melting of the DNA Double Helix 1. Thermodynamic Analysis
DNA condensation Victor A Bloomfield
Condensation of DNA by Multivalent Cations
Thermodynamics of DNA Interactions from Single
Z .Biophysical Chemistry 93 2001 67 82 Thermodynamics of the hydrophobic effect. III.
Force-Induced Melting of the DNA Double Helix. 2. Effect of Solution Conditions*
Assessing Accumulated Solvent Near a Macromolecular Solute by Preferential Interaction Coefficients
Buffer Effects on EcoRV Kinetics as Measured by Fluorescent Staining and Digital Imaging
Mechanism for nucleic acid chaperone activity of HIV-1 nucleocapsid protein revealed by single
