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. 1979 Dec;140(3):817–824. doi: 10.1128/jb.140.3.817-824.1979

Cloning and physical mapping of the dnaA region of the Escherichia coli chromosome.

T Miki, M Kimura, S Hiraga, T Nagata, T Yura
PMCID: PMC216720  PMID: 160412

Abstract

The dnaA gene of Escherichia coli K-12, supposedly present in the deoxyribonucleic acid (DNA) of specialized transducing phase lambda i21 dnaA-2, was cloned onto plasmid pBR322. The new plasmid was named pMCR501. Physical analyses of DNAs of lambda i21 dnaA-2 and pMCR501 revealed the following. The lambda i21 dnaA-2 DNA retained the delta sr I lambda 1-2 and ninR5 deletions and imm21 substitution which were originally present in the parental phage. The size reduction was compensated for by the insertion-substitution segment (tna-dnaA region) in lambda i21 dnaA-2 DNA. The fractional size of this segment was approximately 7 megadaltons (Md), or 10 kilobases, which was found to be the sum of the tna insertion subsegment of ca. 3.5 Md and the dnaA substitution subsegment of ca. 3.5 Md. Phage P1-mediated transductional mapping between the dnaA46 and tna mutations gave a cotransduction frequency of 84%, corresponding to approximately 5 kilobases. Thus, it is strongly suggested that the dnaA gene resides in the lambda i21 dnaA-2 DNA. Cleavage mapping with the restriction endonuclease of pMCR501 DNA confirmed that it was constructed by excising a BamHI fragment of 4.29 Md, containing the 3.5-Md dnaA substitution segment, from the lambda i21 dnaA-2 DNA, inserting it into the sole BamHI cleavage site on pBR322.

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Selected References

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