Release of soluble pilin antigen coupled with gene conversion in Neisseria gonorrhoeae
- PMID: 2892194
- PMCID: PMC299695
- DOI: 10.1073/pnas.84.24.9079
Release of soluble pilin antigen coupled with gene conversion in Neisseria gonorrhoeae
Abstract
Gene conversion appears to be the frequent mechanism in Neisseria gonorrhoeae that leads to an altered expression of pilin, the subunit component of the pili. In this process segments of variable sequence information, the minicassettes, are transferred from silent storage loci into an expression locus. As a putative consequence of the rearrangement in the pilE gene, gonococci can enter a different phase of pilin production. Although the removal of a 7-amino acid leader peptide results in the production of typical P+ pilin used to form pili, the loss of an additional 39 amino acids yields S-pilin, a soluble form of pilin that is efficiently secreted into the extracellular environment. Both pilin types can coexist in an apparently homogeneous culture. Ps cells usually are piliated, although less extensively with regard to the length and the number of the pili when compared with P+ cells. Ps cells form T3/T4-type colonies also typical of nonpiliated cells (P-). The observations further suggest that the classical nonsecretory P- phenotype is not generated as a rule by precise gene conversion but rather by genetic changes that cause the production of an over-length pilin (L-pilin).
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