Genetic transformation of pilation and virulence into Neisseria gonorrhoeae T4.

Genetic transformation of nonpilated strains of Neisserai gonorrhoeae to pilated forms is described. The transformants displayed phenotypic T1 and T2 colonial morphology on agar and possessed pili visualized by electron microscopy. When T1 or T2 transformant cells were injected into 11-day-old chicken embryos, they exhibited virulence characteristics only slightly less than the parental donor strains, though the parental recipient strains were avirulent. Competence was maximal in the late log phase of growth, and the frequency of transformation of clonal T4s to pilation and virulence approached 2%. DNA extracted from transformants could be used to transform other T4 cells. In the course of this work, a shift to a novel colonial type, designated T2-T3 wrinkled, was observed as a consequence of growth of T4 in presence of enzymatic digests of either DNA or RNA, nucleases or individual deoxy- or ribonucleosides. In sharp distinction to the parental T4, these novel organisms were very pilated; however, they were only minimally virulent. Various nucleic acid analogs could neither induce nor inhibit this population shift. Additionally, DNA extracted from this T2-T3 wrinkled variant could be used to transform genetically both T1 and T4 gonococci to the new morphology.