Deoxyribonucleic acid-binding properties and membrane protein composition of a competence-deficient mutant of Haemophilus influenzae.

A mutant of Haemophilus influenzae was isolated which was completely unable to take up double-stranded homologous deoxyribonucleic acid (DNA) at normal physiological conditions but which took up DNA equally as well as the wild type at low pH (pH 4.4). The properties of the mutant provide evidence for the existence of two different mechanisms for DNA entry in the H. influenzae transformation system. With the aid of the mutant the optimal conditions for entry of DNA by these two mechanisms were determined, and the dependence of entry and the specific transforming activity of the entered DNA on competence was examined. The mechanism of entry of DNA at neutral pH, which is not functioning in the mutant, effected entry of homologous DNA only, whereas the mechanism involved in entry of DNA at low pH also effected entry of heterologous DNA. This suggests that the mutant is lacking a protein which recognizes the specific base sequence(s) required for entry. Comparison of the protein composition of the membranes of mutant cells subjected to a growth regimen provoking competence in wild-type cells with that of competent wild-type cells revealed that the mutant is impaired in the synthesis of a protein with a molecular weight of 22,500.