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  • Title: Electrophoretic characterization of intracellular forms of bacteriophage phi X174 DNA: identification of novel intermediate of altered superhelix density.
    Author: Johnson PH, Miller MJ, Wild E, Kelly SV, Grossman LI.
    Journal: J Virol; 1979 Nov; 32(2):629-39. PubMed ID: 159364.
    Abstract:
    The replication cycle of bacteriophage phi X174 DNA has been analyzed by agarose gel electrophoresis. The electrophoretic behavior of the predominant species of parental and progeny DNA molecules formed between 5 and40 min after infection was deduced and quantitated. Migration through 1.4% agarose at 5 and 10 V/cm resolved all known viral DNA species as well as fragments of host chromosomal DNA. Among parental replicative form(RF) molecules synthesized, 1 to 3% were full length linear duplexes (RFIII) and approximately 65% were closed circular duplexes (RFI). Most of the input viral strands remained in a duplex structure throughout the period of infection studied here. Among progeny molecules, RFIII was not readily detected unless viral DNA synthesis was inhibited by chloramphenicol. Late in infection, 20% of the progeny RF were found to exist as form I dna. in addition, approximately 1% of the viral DNA was found as unit length linear single strands. Electrophoretic analysis of RF DNA after controlled denaturation suggests the existence of four populations of closed circular RF: (i) molecules of native superhelix density (RFI); (ii) a population of molecules of altered topological linking number, alpha, differing in increments of one superhelical turn (tau) between tau values of 0 and approximately -31; (iii) a superimposed population of topological isomers which under electrophoresis conditions have mean tau value (tau) equal to +5; and (iv) a population of "complexed" molecules with a reduced number of superhelical turns due to their association with single-stranded DNA and RNA. Complexed parental molecules isolated from cells infected at high multiplicity released FRI and homologous single-stranded DNA upon denaturation and are postulated to be intermediates in genetic recombination. Complexed RF DNA isolated from cells infected at low multiplicity release native supercoils upon reaction with RNase H and are observed by electron microscopy to contain displacement loops. Such molecules are likely intermediates in transcription. Our results are consistent with a structure of complexed RFI involving a partially triple-stranded helix in which a covalently closed circular duplex molecule contains a reduced number of superhelical turns due to the unwinding produced by base pairing between one strand of the supercoil and an associated homologous single strand of DNA or RNA.
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