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. 1974 Apr;13(4):908–915. doi: 10.1128/jvi.13.4.908-915.1974

Biochemistry of DNA-Defective Amber Mutants of Bacteriophage T4 IV. DNA Synthesis in Plasmolyzed Cells

William L Collinsworth 1, Christopher K Mathews 1
PMCID: PMC355389  PMID: 4595302

Abstract

Requirements for bacteriophage T4 DNA synthesis have been investigated in situ by use of plasmolyzed infected cells. When such cells are incubated with dATP, dGTP, dTTP, hydroxymethyldeoxycytidine triphosphate, and rATP, significant semiconservative synthesis of DNA occurs. This DNA hybridizes preferentially to T4 DNA. T4 amber mutants defective in genes 44 and 45, which display a DNA-negative phenotype in vivo, are unable to synthesize DNA in situ. By contrast, T4 amber mutants bearing lesions in genes 41 and 62, which also display a DNA-negative phenotype in vivo, do allow DNA synthesis in situ, the extent of synthesis being 80 to 90% that of the wild-type synthesis under the same conditions. Cells infected with gene 42 mutants (dCMP hydroxymethylase) are unable to synthesize DNA in situ even though exogenous nucleotides are provided. Also one gene 1 mutant (deoxynucleotide kinase) was found to synthesize DNA in situ, but two other gene 1 mutants did not. These results point to possible roles of hydroxymethylase and kinase in DNA metabolism, in addition to provision of essential DNA precursors, as has recently been suggested by Wovcha et al. (1973).

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.

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