Quantitative determination of uracil residues in Escherichia coli DNA:: Contribution of ung, dug, and dut genes to uracil avoidance

The steady-state levels of uracil residues in DNA extracted from strains of Escherichia coli were measured and the influence of defects in the genes for uracil-DNA glycosylase (ung), double-strand uracil-DNA glycosylase (dug), and dUTP pyrophosphatase (dut) on uracil accumulation was determined. A sensitive method, called the Ung-ARP assay, was developed that utilized E. coli Ung, T4pdg, and the Aldehyde Reactive Probe reagent to label abasic sites resulting from uracil excision with biotin. The limit of detection was one uracil residue per million DNA nucleotides (U/10(6) nt). Uracil levels in the genomic DNA of E. coli JM105 (ung(+) dug(+)) were at the limit of detection, as were those of an isogenic dug mutant, regardless of growth phase. Inactivation of ung in JM105 resulted in 31 +/- 2.6 U/10(6) nt during early log growth and 19 +/- 1.7 U/10(6) nt in saturated phase. An ung dug double mutant (CY11) accumulated 33 +/- 2.9 U/10(6) nt and 23 +/- 1.8 U/10(6) nt during early log and saturated phase growth, respectively. When cultures of CY11 were supplemented with 20 ng/ml of 5-fluoro-2'-deoxyuridine, uracil levels in early log phase growth DNA rose to 125 1.7 U/106 nt. Deoxyuridine supplementation reduced the amount of uracil in CY11 DNA, but uridine did not. Levels of uracil in DNA extracted from CJ236 (dut-1 ung-1) were determined to be 3000-8000 U/10(6) nt as measured by the Ung-ARP assay, two-dimensional thin-layer chromatography of metabolically-labeled P-32 DNA, and LC/MS of uracil and thymine deoxynucleosides. DNA sequencing revealed that the sole molecular defect in the CJ236, dUTP pyrophosphatase gene was a C T transition mutation that resulted in a Thr24Ile amino acid change. (c) 2006 Elsevier B.V. All rights reserved.