Bead size effects on protein-mediated DNA looping in tethered-particle motion experiments

Biopolymers

Volumn 95, Issue 2, 2011, Pages 144-150

  Milstein, J N ^a   Chen, Y F ^a   Meiners, J C ^a  

^a UNIVERSITY OF MICHIGAN   (United States)

Author keywords

DNA looping; single molecule techniques; TPM

Indexed keywords

AU NANOPARTICLE; BEAD SIZE; BIOPHYSICAL PROCESS; COVER GLASS; DARK-FIELD; DNA LOOPING; EXCLUDED VOLUME EFFECTS; LAC REPRESSOR; PARTICLE MOTIONS; POLYSTYRENE BEADS; PROTEIN-MEDIATED DNA LOOPS; SINGLE-MOLECULE STUDIES; SINGLE-MOLECULE TECHNIQUE; SURFACE INTERACTIONS; TPM;

DNA; EXPERIMENTS; GOLD; MICROSPHERES; MOLECULAR BIOLOGY; MOLECULES; POLYSTYRENES;

THERMOELECTRIC POWER;

GOLD NANOPARTICLE; MICROSPHERE; POLYSTYRENE; REPRESSOR PROTEIN;

ARTICLE; DNA LOOPING; DNA STRUCTURE; MOTION; TETHERED PARTICLE MOTION;

BIOPHYSICAL PHENOMENA; DNA; HYDRODYNAMICS; KINETICS; LAC REPRESSORS; METAL NANOPARTICLES; MICROSPHERES; MODELS, MOLECULAR; MOTION; NUCLEIC ACID CONFORMATION; PARTICLE SIZE; PROTEINS;

EID: 78649640916     PISSN: 00063525     EISSN: 10970282     Source Type: Journal    
DOI: 10.1002/bip.21547     Document Type: Article

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