Inhibition of a DNA-helicase by peptide nucleic acids

Lionel Bastide; Paul E. Boehmer; Giuseppe Villani; Bernard Lebleu

doi:10.1093/nar/27.2.551

Inhibition of a DNA-helicase by peptide nucleic acids

Lionel Bastide, Paul E. Boehmer, Giuseppe Villani, Bernard Lebleu

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

24 Scopus citations

Abstract

Bis-peptide nucleic acid (bis-PNA) binding results in D-loop formation by strand displacement at complementary homopurine stretches in DNA duplexes. Transcription and replication in intact cells is mediated by multienzymatic complexes involving several proteins other than polymerases. The behaviour of the highly stable clamp structure formed by bis-PNAs has thus far been studied with respect to their capacity to arrest RNA polymerases. Little attention has been given to their recognition and processing by DNA helicases. In this report we have investigated the inhibitory effect of a bis-PNA on the DNA-helicase activity of the well characterized herpes simplex type I UL9 protein. Unwinding by UL9 of a synthetic substrate is significantly inhibited by a bis-PNA and the addition of the ICP8 protein, which increases UL9 processivity, does not relieve this inhibition.

Original language	English (US)
Pages (from-to)	551-554
Number of pages	4
Journal	Nucleic acids research
Volume	27
Issue number	2
DOIs	https://doi.org/10.1093/nar/27.2.551
State	Published - Jan 15 1999
Externally published	Yes

ASJC Scopus subject areas

Genetics

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10.1093/nar/27.2.551

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title = "Inhibition of a DNA-helicase by peptide nucleic acids",

abstract = "Bis-peptide nucleic acid (bis-PNA) binding results in D-loop formation by strand displacement at complementary homopurine stretches in DNA duplexes. Transcription and replication in intact cells is mediated by multienzymatic complexes involving several proteins other than polymerases. The behaviour of the highly stable clamp structure formed by bis-PNAs has thus far been studied with respect to their capacity to arrest RNA polymerases. Little attention has been given to their recognition and processing by DNA helicases. In this report we have investigated the inhibitory effect of a bis-PNA on the DNA-helicase activity of the well characterized herpes simplex type I UL9 protein. Unwinding by UL9 of a synthetic substrate is significantly inhibited by a bis-PNA and the addition of the ICP8 protein, which increases UL9 processivity, does not relieve this inhibition.",

author = "Lionel Bastide and Boehmer, {Paul E.} and Giuseppe Villani and Bernard Lebleu",

note = "Funding Information: The authors thank Dr P. Nielsen (Panum Institute, Copenhagen, Denmark) for the generous gift of the bis-PNAs used in this study and Dr J. P. L{\'e}onetti for helping and stimulating discussions. This work was supported by grants from Agence Nationale de Recherche contre le SIDA, Ligue Nationale Fran{\c c}aise de Lutte contre le Cancer and Association pour le developpement de la Recherche sur le Cancer and by grant AI38335 from the National Institutes of Health to P.E.B.",

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doi = "10.1093/nar/27.2.551",

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AU - Bastide, Lionel

AU - Boehmer, Paul E.

AU - Villani, Giuseppe

AU - Lebleu, Bernard

N1 - Funding Information: The authors thank Dr P. Nielsen (Panum Institute, Copenhagen, Denmark) for the generous gift of the bis-PNAs used in this study and Dr J. P. Léonetti for helping and stimulating discussions. This work was supported by grants from Agence Nationale de Recherche contre le SIDA, Ligue Nationale Française de Lutte contre le Cancer and Association pour le developpement de la Recherche sur le Cancer and by grant AI38335 from the National Institutes of Health to P.E.B.

PY - 1999/1/15

Y1 - 1999/1/15

N2 - Bis-peptide nucleic acid (bis-PNA) binding results in D-loop formation by strand displacement at complementary homopurine stretches in DNA duplexes. Transcription and replication in intact cells is mediated by multienzymatic complexes involving several proteins other than polymerases. The behaviour of the highly stable clamp structure formed by bis-PNAs has thus far been studied with respect to their capacity to arrest RNA polymerases. Little attention has been given to their recognition and processing by DNA helicases. In this report we have investigated the inhibitory effect of a bis-PNA on the DNA-helicase activity of the well characterized herpes simplex type I UL9 protein. Unwinding by UL9 of a synthetic substrate is significantly inhibited by a bis-PNA and the addition of the ICP8 protein, which increases UL9 processivity, does not relieve this inhibition.

AB - Bis-peptide nucleic acid (bis-PNA) binding results in D-loop formation by strand displacement at complementary homopurine stretches in DNA duplexes. Transcription and replication in intact cells is mediated by multienzymatic complexes involving several proteins other than polymerases. The behaviour of the highly stable clamp structure formed by bis-PNAs has thus far been studied with respect to their capacity to arrest RNA polymerases. Little attention has been given to their recognition and processing by DNA helicases. In this report we have investigated the inhibitory effect of a bis-PNA on the DNA-helicase activity of the well characterized herpes simplex type I UL9 protein. Unwinding by UL9 of a synthetic substrate is significantly inhibited by a bis-PNA and the addition of the ICP8 protein, which increases UL9 processivity, does not relieve this inhibition.

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Inhibition of a DNA-helicase by peptide nucleic acids

Abstract

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