Insights into finding a mismatch through the structure of a mispaired DNA bound by a rhodium intercalator

Valérie C. Pierre; Jens T. Kaiser; Jacqueline K. Barton

doi:10.1073/pnas.0610170104

Insights into finding a mismatch through the structure of a mispaired DNA bound by a rhodium intercalator

Valérie C. Pierre, Jens T. Kaiser, Jacqueline K. Barton

Chemistry (Twin Cities)

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

113 Scopus citations

Abstract

We report the 1.1-Å resolution crystal structure of a bulky rhodium complex bound to two different DNA sites, mismatched and matched in the oligonucleotide 5′-(dCGGAAATTCCCG)₂-3′. At the AC mismatch site, the structure reveals ligand insertion from the minor groove with ejection of both mismatched bases and elucidates how destabilized mispairs in DNA may be recognized. This unique binding mode contrasts with major groove intercalation, observed at a matched site, where doubling of the base pair rise accommodates stacking of the intercalator. Mass spectral analysis reveals different photocleavage products associated with the two binding modes in the crystal, with only products characteristic of mismatch binding in solution. This structure, illustrating two clearly distinct binding modes for a molecule with DNA, provides a rationale for the interrogation and detection of mismatches.

Original language	English (US)
Pages (from-to)	429-434
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	104
Issue number	2
DOIs	https://doi.org/10.1073/pnas.0610170104
State	Published - Jan 9 2007

Keywords

DNA recognition
Metallointercalator
Mismatch detection

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10.1073/pnas.0610170104

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abstract = "We report the 1.1-{\AA} resolution crystal structure of a bulky rhodium complex bound to two different DNA sites, mismatched and matched in the oligonucleotide 5′-(dCGGAAATTCCCG)2-3′. At the AC mismatch site, the structure reveals ligand insertion from the minor groove with ejection of both mismatched bases and elucidates how destabilized mispairs in DNA may be recognized. This unique binding mode contrasts with major groove intercalation, observed at a matched site, where doubling of the base pair rise accommodates stacking of the intercalator. Mass spectral analysis reveals different photocleavage products associated with the two binding modes in the crystal, with only products characteristic of mismatch binding in solution. This structure, illustrating two clearly distinct binding modes for a molecule with DNA, provides a rationale for the interrogation and detection of mismatches.",

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AU - Pierre, Valérie C.

AU - Kaiser, Jens T.

AU - Barton, Jacqueline K.

PY - 2007/1/9

Y1 - 2007/1/9

N2 - We report the 1.1-Å resolution crystal structure of a bulky rhodium complex bound to two different DNA sites, mismatched and matched in the oligonucleotide 5′-(dCGGAAATTCCCG)2-3′. At the AC mismatch site, the structure reveals ligand insertion from the minor groove with ejection of both mismatched bases and elucidates how destabilized mispairs in DNA may be recognized. This unique binding mode contrasts with major groove intercalation, observed at a matched site, where doubling of the base pair rise accommodates stacking of the intercalator. Mass spectral analysis reveals different photocleavage products associated with the two binding modes in the crystal, with only products characteristic of mismatch binding in solution. This structure, illustrating two clearly distinct binding modes for a molecule with DNA, provides a rationale for the interrogation and detection of mismatches.

AB - We report the 1.1-Å resolution crystal structure of a bulky rhodium complex bound to two different DNA sites, mismatched and matched in the oligonucleotide 5′-(dCGGAAATTCCCG)2-3′. At the AC mismatch site, the structure reveals ligand insertion from the minor groove with ejection of both mismatched bases and elucidates how destabilized mispairs in DNA may be recognized. This unique binding mode contrasts with major groove intercalation, observed at a matched site, where doubling of the base pair rise accommodates stacking of the intercalator. Mass spectral analysis reveals different photocleavage products associated with the two binding modes in the crystal, with only products characteristic of mismatch binding in solution. This structure, illustrating two clearly distinct binding modes for a molecule with DNA, provides a rationale for the interrogation and detection of mismatches.

KW - DNA recognition

KW - Metallointercalator

KW - Mismatch detection

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Insights into finding a mismatch through the structure of a mispaired DNA bound by a rhodium intercalator

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