B-Z junctions in supercoiled pRW751 DNA contain unpaired bases or non-Watson-Crick base pairs
Language English Country Great Britain, England Media print
Document type Journal Article
- MeSH
- Deoxyribonuclease BamHI antagonists & inhibitors MeSH
- DNA ultrastructure MeSH
- Single-Strand Specific DNA and RNA Endonucleases metabolism MeSH
- Glyoxal pharmacology MeSH
- Nucleic Acid Conformation drug effects MeSH
- Osmium Tetroxide pharmacology MeSH
- Plasmids * MeSH
- Pyridines pharmacology MeSH
- DNA, Recombinant MeSH
- Base Sequence MeSH
- DNA, Superhelical drug effects ultrastructure MeSH
- Base Composition * MeSH
- Publication type
- Journal Article MeSH
- Names of Substances
- Deoxyribonuclease BamHI MeSH
- DNA MeSH
- Single-Strand Specific DNA and RNA Endonucleases MeSH
- Glyoxal MeSH
- Osmium Tetroxide MeSH
- pyridine MeSH Browser
- Pyridines MeSH
- DNA, Recombinant MeSH
- DNA, Superhelical MeSH
Structural distortions on the boundary between right-handed and left-handed DNA segments in negatively supercoiled plasmid pRW751 (a derivative of pBR322 containing (dC-dG)13 and (dC-dG)16 segments) were studied by means of osmium tetroxide, pyridine and glyoxal. These two probes react preferentially with single-stranded DNA, but only the latter requires non-paired bases for the reaction. Nuclease S1 and testing of the inhibition of BamHI cleavage (whose recognition sequences GGATCC lie on the "outer" boundaries between the (dC-dG)n and the pBR322 nucleotide sequence) were used to detect the site-specific chemical modification in pRW751. As a result of glyoxal treatment BamHI cleavage was strongly inhibited in topoisomeric samples whose superhelical density was sufficiently negative to stabilize the (dC-dG)n segments in the left-handed form. Osmium tetroxide, pyridine modification resulted in a similar inhibition of BamHI cleavage and in a formation of nuclease S1 sensitive sites. The results suggest that the "outer" B-Z junctions in pRW751 contain one or few non-paired bases or non-Watson-Crick base pairs.
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