Methylase activities from Haemophilus influenzae that protect Haemophilus parainfluenzae transforming deoxyribonucleic acid from inactivation by Haemophilus influenzae endonuclease R.

Specific methylases that have the properties of deoxyribonucleic acid (DNA) modification enzymes have been isolated from Haemophilus influenzae strain Rd. Two activities ((Methylase IIa and methylase III) were found to protect transforming DNA of H. parainfluenzae from the action of H. influenzae restriction enzymes. To determine the specificty of the protection, a procedure based on biological activity was developed for the separation and purification of the restriction endonucleases from H. influenzae strain Rd. Two endonuclease R activities presumably corresponding to Hind II and Hind III (P. H. Roy and H. O. Smith, 1973; H. O. Smith and K. W. Wilcox, 1970) were characterized by differences in their chromatographic properties, ability to attack T7 DNA, and inactivation of the transforming activity of different markers of H. parainfluenzae DNA. One endonuclease R enzyme (Hind II) attacked T7 DNA and was found to inactivate the dalacin resistance marker (smaller than 0.01% activity remaining) with only a slight effect on the streptomycin resistance marker (83% activity remaining). Methylase IIa treatment protected 40% of the dalacin resistance marker of H. parainfluenzae DNA from inactivation by Hind II. The other restriction activity (Hind III) was inert towards T7 DNA and inactivated the streptomycin resistance marker of H. parainfluenzae DNA (smaller than 0.01% activity remaining) without any effect on the dalacin resistance marker. The methylation of H. parainfluenzae DNA accomplished by methylase III protected 60% of the transforming activity of the streptomycin resistance marker of H. parainfluenzae DNA from the action of Hind III.

Molecular cloning of two linked loci that increase the transformability of transformation-deficient mutants of Haemophilus influenzae.

A plasmid containing a 13.3-kb insert (pER194) was isolated from an EcoRI genomic library of Haemophilus influenzae on the basis of its ability to increase the transformability of the transformation-deficient mutants Com-78 and Com-101. The plasmid failed to increase the transformability of the Rec-1 and Rec-2 mutants, indicating that the mutations producing the Com-78 and Com-101 phenotypes are distinct from those giving rise to the Rec-1 and Rec-2 phenotypes. The physical mapping of the cloned fragment on the H. influenzae chromosome was found to be consistent with the genetic mapping of the Com-101 trait. A 2.8-kb EcoRI-BglII subfragment, representing one end of the 13.3-kb clone, was found to increase the transformation frequency of the Com-78 and Com-101 mutants when supplied in trans, indicating that the subfragment carries one or more loci required for chromosomal transformation. The corresponding region of the Com-101 chromosome was determined by hybridization analysis to contain a 0.3-kb insertion, suggesting that the Com-101 strain may contain an insertion mutation at this locus. A 3.0-kb EcoRI-MluI subfragment, representing the other end of the 13.3-kb EcoRI fragment, was found to increase the transformation frequency of the Com-101 mutant but not of the Com-78 mutant, suggesting that the Com-101 phenotype results from a complex genotype involving mutations at two or more transformation-related loci. This conclusion is consistent with data indicating that the Com-101 trait can be genetically separated into at least two components.