| Abstract: | The substrate specificity of 49+-enzyme was investigated in vitro. The enzyme showed a marked preference for rapidly sedimenting T4 DNA (greater than 1000 S) when helix-destabilizing proteins from Escherichia coli or phage T4 were added to the reaction. Regular replicative T4 DNA (200-S DNA) or denatured T4 DNA was not cleaved by the enzyme in the presence of these proteins but if they were omitted from the reaction both DNAs become good substrates for the enzyme. 200-S DNA was cleaved at its natural sites of single strandedness which occur at one-genome intervals. Gaps in T4 DNA which were constructed by treatment of a nicked DNA with exonuclease III were also cleaved by 49+-enzyme in the absence of helix-destabilizing proteins. Single-stranded T4 DNA was extensively degraded and up to 50% of the material was found to be acid-soluble in a limit digest. The degradation products were predominantly oligonucleotides of random size. No preference for a 5'-terminal nucleotide was observed in material from a limit digest with M13 DNA. Double-stranded DNA was nicked upon exposure to 49+-enzyme and double-strand breakage finally occurred by an accumulation of single-strand interruptions. No acid-soluble material was produced from native T4 DNA. The introduction of nicks in native DNA did not improve its properties as a substrate for the enzyme. Double-stranded DNA was about 100-fold less sensitive to the enzyme than single-stranded DNA. |
