Modulation of RNase H activity by modified DNA probes: Major groove vs minor groove effects

We have previously prepared ribozyme mimics and chemical nucleases from modified DNA containing pendant bipyridine and terpyridine groups. The ability of these modified DNA probes to support RNase H cleavage of complementary RNA is described. DNA/RNA duplexes were formed using DNA probes designed to...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry 1997-06, Vol.5 (6), p.1037-1042
Main Authors: Daniher, Andrew T., Xie, Jin, Mathur, Shashank, Bashkin, James K.
Format: Article
Language:English
Subjects:
Base Sequence
Binding Sites
DNA - chemistry
DNA - metabolism
DNA Probes - chemistry
DNA Probes - metabolism
DNA Probes - pharmacology
Escherichia coli - enzymology
Hydrolysis
Molecular Weight
Nucleic Acid Conformation
Nucleic Acid Heteroduplexes - chemistry
Nucleic Acid Heteroduplexes - metabolism
Ribonuclease H - antagonists & inhibitors
Ribonuclease H - drug effects
Ribonuclease H - metabolism
RNA, Complementary - chemistry
RNA, Complementary - metabolism
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Summary:We have previously prepared ribozyme mimics and chemical nucleases from modified DNA containing pendant bipyridine and terpyridine groups. The ability of these modified DNA probes to support RNase H cleavage of complementary RNA is described. DNA/RNA duplexes were formed using DNA probes designed to deliver metal complexes via either the major groove or the minor groove of the duplex. The duplexes were treated with Escherichia coli RNase H. Modifications in the major groove produced the same RNA cleavage pattern as unmodified DNA probes. However, minor groove substituents inhibited RNA cleavage over a four-base region. Comparison was made with a DNA probe containing a 2′-OMe modification. Our results support enzyme binding in the minor groove of a DNA/RNA duplex. We do not observe cleavage directly across from the modified nucleoside. The RNA cleavage efficiency effected by RNase H and a DNA probe decreases as follows: unmodified DNA ≥ C-5 modified DNA ⪢ C2′-modified DNA > C1'-modified DNA. Results with 28-mer RNA substrates roughly parallel those obtained with a 159-mer RNA target. The differences observed between low and high MW RNA substrates can be explained by a much higher enzyme-substrate binding constant for the high MW target. DNA/RNA duplexes were formed using DNA probes designed to deliver metal complexes via either the major groove or the minor groove of the duplex. The duplexes were treated with E. coli RNase H. Modifications in the major groove produced the same RNA cleavage pattern as unmodified DNA probes. However, minor groove substituents inhibited RNA cleavage over a four-base region. Our results support enzyme binding in the minor groove of an DNA/RNA duplex.
ISSN:0968-0896
1464-3391
DOI:10.1016/S0968-0896(97)00040-0