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Nanochannel-Confined TAMRA-Polypyrrole Stained DNA Stretching by Varying the Ionic Strength from Micromolar to Millimolar Concentrations.

Seonghyun LeeYelin LeeYongkyun KimCong WangJungyul ParkGun Young JungYenglong ChenRakwoo ChangShuji IkedaHiroshi SugiyamaKyubong Jo
Published in: Polymers (2018)
Large DNA molecules have been utilized as a model system to investigate polymer physics. However, DNA visualization via intercalating dyes has generated equivocal results due to dye-induced structural deformation, particularly unwanted unwinding of the double helix. Thus, the contour length increases and the persistence length changes so unpredictably that there has been a controversy. In this paper, we used TAMRA-polypyrrole to stain single DNA molecules. Since this staining did not change the contour length of B-form DNA, we utilized TAMRA-polypyrrole stained DNA as a tool to measure the persistence length by changing the ionic strength. Then, we investigated DNA stretching in nanochannels by varying the ionic strength from 0.06 mM to 47 mM to evaluate several polymer physics theories proposed by Odijk, de Gennes and recent papers to deal with these regimes.
Keyphrases
  • circulating tumor
  • cell free
  • single molecule
  • nucleic acid
  • ionic liquid
  • circulating tumor cells
  • mass spectrometry
  • high glucose
  • solid state
  • dna binding
  • liquid chromatography