Localization of single-chain interruptions in bacteriophage T5 DNA I. Electron microscopic studies.
AUTOR(ES)
Scheible, P P
RESUMO
Bacteriophage T5 DNA was examined in an electron microscope after limited digestion with exonuclease III from Escherichia coli. The effect of the exonuclease treatment was to convert each naturally occurring single-chain interruption in T5 DNA into a short segment of single-stranded DNA. The locations of these segments were determined for T5st(+) DNA, T5st(0) DNA, and fragments of T5st(0) DNA generated by EcoRI restriction endonuclease. The results indicate that single-chain interruptions occurr in a variable, but nonrandom, manner in T5 DNA. T5st(+) DNA has four principal interruptions located at sites approximately 7.9, 18.5, 32.6, and 64.8% from one end of the molecule. Interruptions occur at these sites in 80 to 90% of the population. A large number of additional sites, located primarily at the ends of the DNA, contain interruptions at lower frequencies. The average number of interruptions per genome, as determined by this method, is 8. A similar distribution of breaks occurs in T5st(0) DNA, except that the 32.6% site is missing. At least one of the principal interruptions is reproducibly located within an interval of 0.2% of the entire DNA.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=515885Documentos Relacionados
- Localization of Single-Chain Interruptions in Bacteriophage T5 DNA. II. Electrophoretic Studies 1
- A bacteriophage T5 mutant with an increased frequency of single-chain interruptions.
- Bacteriophage T5-induced endonucleases that introduce site-specific single-chain interruptions in duplex DNA.
- Physical map of bacteriophage BF23 DNA: terminal redundancy and localization of single-chain interruptions.
- In Vivo Repair of the Single-Strand Interruptions Contained in Bacteriophage T5 DNA