Trapping of DNA by thermophoretic depletion and convection

Trapping of DNA by thermophoretic depletion and convection

Thermophoresis depletes DNA from a heated spot. We quantify for the first time the thermal diffusion constant D(T)=0.4x10(-8) cm(2)/s K for DNA, using fluorescent dyes and laser heating. For 5 kB DNA we extrapolate a 1000-fold depletion from a temperature difference of 50 K. Surprisingly, convection...

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Veröffentlicht in:Physical review letters 2002-10, Vol.89 (18), p.188103-188103, Article 188103
Hauptverfasser: Braun, Dieter, Libchaber, Albert
Format: Artikel
Sprache:eng
Schlagworte:
Buffers
DNA - chemistry
Fluorescence
Heating
Lasers
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Zusammenfassung:Thermophoresis depletes DNA from a heated spot. We quantify for the first time the thermal diffusion constant D(T)=0.4x10(-8) cm(2)/s K for DNA, using fluorescent dyes and laser heating. For 5 kB DNA we extrapolate a 1000-fold depletion from a temperature difference of 50 K. Surprisingly, convection generated by the same heating can turn the depletion into trapping of DNA. Trapped DNA can form point geometries 20 microm in diameter with more than 1000-fold enhanced concentrations. The accumulation is driven only by temperature gradients and offers a new approach to biological microfluidics and replicating systems in prebiotic evolution.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.89.188103