Chantal Turmel scite author profile

SynopsisAn extensive series of experiments has been performed to study the mobility of DNA fragments ranging in size from 2.0 to 48.5 kilobose pairs. By varying the agarose concentration in the gels and the electric field strength, three DNA electrophoresis regimes were clearly identified: the Ogston regime (small DNA fragments in large pores of agarose), the reptation regime without DNA chain stretching (small pores of agarose and weak electric fields), and the reptation regime with DNA chain stretching (small pores of agarose, strong electric fields, and large DNA fragments). Here we report on the experimental identification of these regimes and on the conditions governing the transition between each of them. The onset of reptation and of stretching of DNA chains in gel electrophoresis are described quantitatively for the first time, and a phase diagram for the dynamics of DNA during electrophoresis is presented.

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Self-trapping and anomalous dispersion of DNA in electrophoresis

Noolandi

et al. 1987

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We present a high-field biased reptation model of gel electrophoresis. It is predicted that during their migration, DNA fragments can get trapped for long periods of time in near-zero-velocity, looplike compact conformations. As a consequence, the electrophoretic mobility of DNA is found to be a nonmonotonic function of the fragment size. We present experimental results showing this unique and unexpected consequence of anomalous dispersion due to DNA self-trapping in compact states.

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Molecular detrapping and band narrowing with high frequency modulation of pulsed field electrophoresis

Turmel

Brassard

Slater³

et al. 1990

Nucl Acids Res

107

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In high electric fields, megabase DNA fragments are found to be trapped, i.e. to enter or migrate in the gel only very slowly, if at all, leading to very broad electrophoretic bands and loss of separation. As a consequence, low electric fields are usually used to separate these molecules by pulsed field electrophoretic methods. We report here that high-frequency pulses eliminate the molecular trapping found in continuous fields. When high frequency pulses are used to modulate the longer pulses used in pulsed field electrophoresis, narrower bands result, and higher fields can be used. We suggest that this is due to effects that occur on the length scale of a single pore.

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Phototoxicity of Some Bromine‐Substituted Rhodamine Dyes: Synthesis, Photophysical Properties and Application as Photosensitizers

Pal

Zeng

Durocher

et al. 1996

Photochem & Photobiology

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The synthesis of some bromine-substituted rhodamine derivatives viz., 4,5-dibromorhodamine methyl ester (dye 2) and 4,5-dibromorhodamine n-butyl ester (dye 3) are reported. These dyes were synthesized to promote a more efficient cancer cell photosensitizer for potential use in in vitro bone marrow purging in preparation for autologous bone marrow transplantation. Spectroscopic and photophysical characterization of these dyes together with rhodamine 123 (dye 1) are reported in water, methanol, ethanol and also in a microheterogeneous system, sodium dodecyl sulfate. The possible mechanism of photosensitization is characterized in terms of singlet oxygen efficiency of these dyes. Singlet oxygen quantum yields for bromine-substituted dyes are in the range of 0.3-0.5 depending on the solvent. For dye 1 no singlet oxygen production is found. The photodynamic actions of these dyes in different cell lines are tested. It was found that dye 2 and dye 3 are efficient photosensitizers and mediate eradication of K562, EM2, myeloid cell lines (CML) and the SMF-AI rhabdomyosarcoma line.

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Chantal Turmel

Quantitative analysis of the three regimes of DNA electrophoresis in agarose gels

Self-trapping and anomalous dispersion of DNA in electrophoresis

Molecular detrapping and band narrowing with high frequency modulation of pulsed field electrophoresis

Phototoxicity of Some Bromine‐Substituted Rhodamine Dyes: Synthesis, Photophysical Properties and Application as Photosensitizers

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