Useful technique for DNA-stretching and fixation | Zendy

Hirohisa Nakao | Zendy; Hideki Hayashi | Zendy; T. Yoshino | Zendy; Shigeru Sugiyama | Zendy; Kazunori Otobe | Zendy; T. Ohtani | Zendy

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Useful technique for DNA-stretching and fixation

Author(s) -

Hirohisa Nakao,

Hideki Hayashi,

T. Yoshino,

Shigeru Sugiyama,

Kazunori Otobe,

T. Ohtani

Publication year - 2002

Publication title -

nucleic acids symposium series

Language(s) - English

Resource type - Journals

eISSN - 1746-8272

pISSN - 0261-3166

DOI - 10.1093/nass/2.1.289

Subject(s) - polymer , atomic force microscopy , molecule , dna , materials science , surface tension , nanotechnology , coating , optical microscope , chemistry , scanning electron microscope , composite material , physics , biochemistry , organic chemistry , quantum mechanics

We report on a useful technique for reproducibly straightening and fixing DNA molecules. When a droplet of DNA solution on surfaces is sucked up by pipet, surface tension at the moving air-water interface is sufficient to stretch the molecules. The point of this technique is the interaction control between surfaces and DNA molecules by polymer coating. With polymers containing pi-conjugation units (polyphenazasiline, PPhenaz and poly(vinylcarbazole), PVCz), many DNA were nicely stretched and fixed on surfaces. Furthermore, structural changes of pi-units in polymers affected DNA-stretching and fixation. By using atomic force microscopy (AFM) and scanning near-field optical/atomic force microscopy (SNOM/AFM), the feasibility of this technique for DNA observations was demonstrated.

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