Increased binding of ethidium bromide to polynucleotide duplexes containing mismatched bases

David C. Helfgott; Neville R. Kallenbach

doi:10.1093/nar/7.4.1011

Increased binding of ethidium bromide to polynucleotide duplexes containing mismatched bases

David C. Helfgott, Neville R. Kallenbach

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

The binding of the intercalating dye ethidium bromide to a series of synthetic polynucleotide duplexes containing varying concentrations of mismatched banes has been measured by fluorescence titration. The dye binds more strongly to duplexes with mismatches, the estimated increase in affinity being twenty-fold for the series of molecules poly (I)·poly (C,A_x) with x denoting the mole fraction of mismatched A residues in the C strand. The results are consistent with one requirement of the Streisinger model for frameshift mutagenesis, namely that frameshifting agents can function by stabilizing mismatched transient intermediates in DNA.

Original language	English (US)
Pages (from-to)	1011-1018
Number of pages	8
Journal	Nucleic acids research
Volume	7
Issue number	4
DOIs	https://doi.org/10.1093/nar/7.4.1011
State	Published - Oct 25 1979

ASJC Scopus subject areas

Genetics

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title = "Increased binding of ethidium bromide to polynucleotide duplexes containing mismatched bases",

abstract = "The binding of the intercalating dye ethidium bromide to a series of synthetic polynucleotide duplexes containing varying concentrations of mismatched banes has been measured by fluorescence titration. The dye binds more strongly to duplexes with mismatches, the estimated increase in affinity being twenty-fold for the series of molecules poly (I)·poly (C,Ax) with x denoting the mole fraction of mismatched A residues in the C strand. The results are consistent with one requirement of the Streisinger model for frameshift mutagenesis, namely that frameshifting agents can function by stabilizing mismatched transient intermediates in DNA.",

author = "Helfgott, {David C.} and Kallenbach, {Neville R.}",

note = "Funding Information: ACKNOWLEDGEMENTS This research was supported by grant number CA 24101 from National Institutes of Health and grant number PCM 77-26740 from the National Science Foundation. We thank Peter Young for many helpful discussions.",

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T1 - Increased binding of ethidium bromide to polynucleotide duplexes containing mismatched bases

AU - Helfgott, David C.

AU - Kallenbach, Neville R.

N1 - Funding Information: ACKNOWLEDGEMENTS This research was supported by grant number CA 24101 from National Institutes of Health and grant number PCM 77-26740 from the National Science Foundation. We thank Peter Young for many helpful discussions.

PY - 1979/10/25

Y1 - 1979/10/25

N2 - The binding of the intercalating dye ethidium bromide to a series of synthetic polynucleotide duplexes containing varying concentrations of mismatched banes has been measured by fluorescence titration. The dye binds more strongly to duplexes with mismatches, the estimated increase in affinity being twenty-fold for the series of molecules poly (I)·poly (C,Ax) with x denoting the mole fraction of mismatched A residues in the C strand. The results are consistent with one requirement of the Streisinger model for frameshift mutagenesis, namely that frameshifting agents can function by stabilizing mismatched transient intermediates in DNA.

AB - The binding of the intercalating dye ethidium bromide to a series of synthetic polynucleotide duplexes containing varying concentrations of mismatched banes has been measured by fluorescence titration. The dye binds more strongly to duplexes with mismatches, the estimated increase in affinity being twenty-fold for the series of molecules poly (I)·poly (C,Ax) with x denoting the mole fraction of mismatched A residues in the C strand. The results are consistent with one requirement of the Streisinger model for frameshift mutagenesis, namely that frameshifting agents can function by stabilizing mismatched transient intermediates in DNA.

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Increased binding of ethidium bromide to polynucleotide duplexes containing mismatched bases

Abstract

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