This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Reprints and Permissions Copyright Information Books from ASM Press MicrobeWorld Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Perlman, D Articles by Rownd, R H Search for Related Content PubMed PubMed Citation Articles by Perlman, D Articles by Rownd, R H

 Previous Article  |  Next Article 

J Bacteriol. 1975 September; 123(3): 1035-1042

Denaturation mapping of R factor deoxyribonucleic acid.

ABSTRACT

The R factor NR1 consists of two components: a resistance transfer factor which harbors the tetracycline resistance genes (RTF-TC) and the r-determinants component which harbors the other drug resistance genes. Using partial denaturation mapping it is possible to distinguish the RTF-TC region from the r-determinants region of the composite R factor NR1 DNA which has a contour length of 37 mum and a density of 1.712 g/ml. The r-determinants region was a relatively undenatured 8.5-mum segment of the molecule when the deoxyribonucleic acid was partially denatured at pH 10.7. An RTF-TC genetic segregant of NR1 which had lost the r-determinants component had a contour length of 28.7 mum and a density of 1.710 g/ml. Characterization of an RTF-TC using partial denaturation mapping at pH 10.7 confirmed that the relatively undenatured 8.5-mum r-determinants segment of the composite R factor had been deleted. Circular, transitioned NR1 DNA molecules (1.716 to 1.718 g/ml), whose contour lengths were consistent with an RTF-TC plus an integral number of tandem copies of r-determinants, were also characterized by denaturation mapping. The relatively undenatured region in these molecules had a length equal to an integral number of copies of r-determinants and was located at the same site in the partially denatured RTF-TC as the single copy of r-determinants in the 37-mum composite NR1. This indicates that there is a unique integration site for r-determinants in the RTF-TC component. The R factor UCR122, a TC deletion mutant of NR1, was also characterized by denaturation mapping. The translocation of the TC resistance gene(s) on the denaturation map permitted the alignment of the denaturation map with the heteroduplex map of Sharp et al. (u073). Linear and circular monomeric and presumed multimeric r-determinants DNA molecules (p = 1.718 g/ml) were partially denatured at a higher pH (11.10). The r-determinants multimers showed a repeating 8.3-mum (monomeric) partial denaturation pattern indicating a head-to-tail arrangement of monomers in these poly-r-determinant molecules.