Fluorescence-detected capillary electrophoresis separations of phi X174/HaeIII DNA restriction fragments have been performed using monomeric and dimeric intercalating dyes. Replaceable hydroxyethyl cellulose solutions were used as the separation medium. Confocal fluorescence detection was performed following 488-nm laser excitation. The limits of DNA detection for on-column staining with monomeric dyes (ethidium bromide, two propidium dye derivatives, oxazole yellow, thiazole orange, and a polycationic thiazole orange derivative) were determined. The thiazole orange dyes provide the most sensitive detection with limiting sensitivities of 2-4 amol of DNA base pairs per band, and detection of the 603-bp fragment was successful, injecting from phi X174/HaeIII samples containing only 1-2 fg of this fragment per microliter. Separations of preformed DNA-dimeric dye complexes were also performed. The breadth of the bands observed in separations of preformed DNA-dimeric dye complexes is due to the presence of DNA fragments with different numbers of bound dye molecules that can be resolved as closely spaced subbands in many of our separations. The quality of these DNA-dye complex separations can be dramatically improved by performing the electrophoresis with 9-aminoacridine (9AA) in the column and running buffers. The optimum concentrations of 9AA for the separation of complexes preformed with the dimeric dyes TOTO, EthD, TOTAB, and YOYO were determined to be 100, 1, 1, and 0.5 microM, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
Spectroscopic studies of the complexes of double-stranded (ds) DNA with the polymethylene-amine linked heterodimers thiazole orange-thiazole blue, thiazole orange-ethidium, and fluorescein-ethidium, in each case show efficient energy transfer from donor to acceptor chromophores (Benson, S.C., Singh, P. and Glazer, A.N. (1993) accompanying manuscript). A quantitative assay of the stability of such complexes during gel electrophoresis is presented. The off-rate of dye from complexes formed at an initial dsDNA bp:dye ratio > or = 10:1 follows strict first-order kinetics. The t0.5 values for the dissociation of a series of related dyes provide a quantitative criterion for the design of DNA-binding fluorophores. Complexes of dsDNA with the monomeric propidium and cyanine dyes, [1-(9-amino-4,7-diazanonyl)-3,8-diamino-6-phenyl-phenanthridinium bromide trihydrobromide] and (N,N'-tetramethyl-1,3-propanediamino)propyl thiazole orange [4-[3-methyl-2,3-dihydro-(benzo-1,3-thiazole)-2-methylidenyl]-1-(4 ,4,8-trimethyl-4,8-diazanonyl)-quinolinium diiodide], are much more stable than those with their widely used counterparts, ethidium and thiazole orange. Applications of the new dyes in post-staining of gels and in the multiplex detection of DNA restriction fragments are presented.
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