Kinetic trapping of H-DNA by oligonucleotide binding

Boris P. Belotserkovskii; Maria M. Krasilnikova; Alexei G. Veselkov; Maxim D. Frank-kamenetskii

doi:10.1093/nar/20.8.1903

Kinetic trapping of H-DNA by oligonucleotide binding

Boris P. Belotserkovskii, Maria M. Krasilnikova, Alexei G. Veselkov, Maxim D. Frank-kamenetskii

Biochemistry & Molecular Biology

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

21 Scopus citations

Abstract

Homopurine-homopyrimidine mirror repeats are known to adopt the H form under acidic pH and/or negative supercolling. In H-DNA, one half of the purine strand enters the triplex whereas the second half Is unstructured and can form duplex with complementary oligonucleotide. However, because the same oligonucleotide can form triplex with the homopurine-homopyrimidine insert, one could expect that oligonucleotide would make H-DNA thermodynamically less favorable, as was claimed by Lyamlchev et al. Nucl. Acids Res. 16, 2165- 2178 (1988). Now we show that complex between oligonucleotide and H-DNA, formed under conditions favorable for the H-form extrusion, is kinetically trapped in superhelical DNA and remains stable up much higher pH values than H-DNA alone. Experiments on chemical probing show that such complex exists for a plasmid with native superhelical density at pH7. We have also used this approach to demonstrate a pH-dependent structural transition in yeast telomeric sequence, d(C-ACACCCA)₁₆.

Original language	English (US)
Pages (from-to)	1903-1908
Number of pages	6
Journal	Nucleic acids research
Volume	20
Issue number	8
DOIs	https://doi.org/10.1093/nar/20.8.1903
State	Published - Apr 25 1992

All Science Journal Classification (ASJC) codes

Genetics

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title = "Kinetic trapping of H-DNA by oligonucleotide binding",

abstract = "Homopurine-homopyrimidine mirror repeats are known to adopt the H form under acidic pH and/or negative supercolling. In H-DNA, one half of the purine strand enters the triplex whereas the second half Is unstructured and can form duplex with complementary oligonucleotide. However, because the same oligonucleotide can form triplex with the homopurine-homopyrimidine insert, one could expect that oligonucleotide would make H-DNA thermodynamically less favorable, as was claimed by Lyamlchev et al. Nucl. Acids Res. 16, 2165- 2178 (1988). Now we show that complex between oligonucleotide and H-DNA, formed under conditions favorable for the H-form extrusion, is kinetically trapped in superhelical DNA and remains stable up much higher pH values than H-DNA alone. Experiments on chemical probing show that such complex exists for a plasmid with native superhelical density at pH7. We have also used this approach to demonstrate a pH-dependent structural transition in yeast telomeric sequence, d(C-ACACCCA)16.",

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T1 - Kinetic trapping of H-DNA by oligonucleotide binding

AU - Belotserkovskii, Boris P.

AU - Krasilnikova, Maria M.

AU - Veselkov, Alexei G.

AU - Frank-kamenetskii, Maxim D.

PY - 1992/4/25

Y1 - 1992/4/25

N2 - Homopurine-homopyrimidine mirror repeats are known to adopt the H form under acidic pH and/or negative supercolling. In H-DNA, one half of the purine strand enters the triplex whereas the second half Is unstructured and can form duplex with complementary oligonucleotide. However, because the same oligonucleotide can form triplex with the homopurine-homopyrimidine insert, one could expect that oligonucleotide would make H-DNA thermodynamically less favorable, as was claimed by Lyamlchev et al. Nucl. Acids Res. 16, 2165- 2178 (1988). Now we show that complex between oligonucleotide and H-DNA, formed under conditions favorable for the H-form extrusion, is kinetically trapped in superhelical DNA and remains stable up much higher pH values than H-DNA alone. Experiments on chemical probing show that such complex exists for a plasmid with native superhelical density at pH7. We have also used this approach to demonstrate a pH-dependent structural transition in yeast telomeric sequence, d(C-ACACCCA)16.

AB - Homopurine-homopyrimidine mirror repeats are known to adopt the H form under acidic pH and/or negative supercolling. In H-DNA, one half of the purine strand enters the triplex whereas the second half Is unstructured and can form duplex with complementary oligonucleotide. However, because the same oligonucleotide can form triplex with the homopurine-homopyrimidine insert, one could expect that oligonucleotide would make H-DNA thermodynamically less favorable, as was claimed by Lyamlchev et al. Nucl. Acids Res. 16, 2165- 2178 (1988). Now we show that complex between oligonucleotide and H-DNA, formed under conditions favorable for the H-form extrusion, is kinetically trapped in superhelical DNA and remains stable up much higher pH values than H-DNA alone. Experiments on chemical probing show that such complex exists for a plasmid with native superhelical density at pH7. We have also used this approach to demonstrate a pH-dependent structural transition in yeast telomeric sequence, d(C-ACACCCA)16.

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JF - Nucleic acids research

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Kinetic trapping of H-DNA by oligonucleotide binding

Abstract

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