The bacteriophages T3 and T7 are not modified and restricted by E. coli strains with different host specificity (E. coli B, K, O) in vivo. The phages code for a gene product with the ability to overcome classical restriction (ocr): ocr- mutants are subject to modification and restriction via DNA methylation vs cleavage. The T3 genome possesses recognition sites for the restriction endonuclease R.EcoB which, unless the DNA is B-specifically modified, trigger 5-7 DNA cleavages. The ocr gene function of T3 and T7 is located within the gene 0.3 region of these phages and is not identical with the sam (SAMase) function of T3. The mechanism of ocr protection remains unclear, while it is certain that this protection by the gene 0.3 protein is exerted in the infected cell and not through "over-all" modification in the preceding growth cycle of the phage.
1. It has recently been proposed that acyl coenzyme A thioesters (acyl-CoAs) of xenobiotic carboxylic acids are electrophilic, reactive metabolites that may react with proteins. 2. The primary objective was to investigate the reactivity of the tolmetin acyl coenzyme A thioester (Tol-CoA). The second objective was to identify and quantify tolmetin (Tol) metabolites in vivo that were formed via Tol-CoA, e.g. the glycine (Tol-Gly) and taurine (Tol-Tau) conjugates. This finding would be indicative of Tol-CoA formation and thus of other acyl-CoA-related reactions that might occur, e.g. covalent binding to proteins. 3. In order to study the chemical reactivity, Tol-CoA (0.5 mM) was incubated with glutathione (5 mM) in a 0.1 M phosphate buffer (pH 7.4) at 37 degrees C. Tol-CoA reacted rapidly with glutathione in vitro to form the S-acyl glutathione conjugate at a rate of 14.9 +/- 0.7 micro M min(-1) (mean +/- SD, n = 3) from 0 to 10 min. Compared with acyl-CoAs of other xenobiotic carboxylic acids, naproxen and clofibric acid, the rate by which Tol-CoA reacted with glutathione was high. 4. Following administration of (3)H-Tol (100 mg kg(-1), 200 micro Ci kg(-1), p.o.) to male Sprague-Dawley rats, Tol-Tau and Tol-Gly were identified in urine by electrospray ionization MS-MS in both positive- and negative-ion modes. The conjugates were only formed at trace levels (< 0.5%). However, the presence of Tol-Tau and Tol-Gly showed the reactive Tol-CoA was formed in vivo.
Certain differences between phage T3 on the one hand and T3sam and T7 on the other hand indicate that the T3-coded SAMase function is responsible (i) for the development of the pseudolysogenic state by preventing T3 DNA methylation, and (ii) for the partial protection of the phage DNA against restriction by the P system.
In host cells containing the
Salmonella typhimurium
DNA restriction-modification systems SA
+
and SB
+
, replication of the
ocr
+
bacteriophages T3 and T7 is not impaired. However,
ocr
(gene 0.3) mutants of these phages are susceptible to DNA restriction and modification by the SA
+
and SB
+
systems.
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