By using genetic complementation tests with various in vitro-constructed mutants with mutations in the cap region (which is essential for encapsulation in Bacillus anthracis), we identified three cistrons, capB, capC, and capA, in this order of arrangement. Minicell analysis revealed that these cistrons produce proteins of 44, 16, and 46 kilodaltons, respectively. The complete nucleotide sequence of 3,244 base pairs covering the whole cap region was determined and revealed the existence of the three open reading frames of capB (397 amino acid residues; molecular weight, 44,872), capC (149 amino acid residues; molecular weight, 16,522), and capA (411 amino acid residues; molecular weight, 46,420) arranged in the order predicted by complementation tests. These three cistrons were all transcribed in the same direction from promoters unique to each cistron. Judging from the predicted amino acid sequence of the three proteins and from their localization and their sensitivity to various physicochemical treatments, they appeared to be membrane-associated enzymes mediating the polymerization of D-glutamic acid via the membrane. Capsular peptides immunologically identical to that of B. anthracis were found in B. subtilis, B. megaterium, and B. licheniformis, but no sequence homologous to the cap region was found in any of these bacilli other than B. anthracis. Using strains of B. anthracis with or without insertional inactivation of the cap region, we found that the capsule of B. anthracis conferred strong resistance to phagocytosis upon the bacterial host.
Neisseria gonorrhoeae is a facultative intracellular bacterium capable of penetrating into certain human epithelial cell types. In order to identify gonococcal factors essential for invading Chang human conjunctiva cells, a gentamicin selection assay for the quantification of viable intracellular bacteria was used in conjunction with microscopy. The results demonstrate a correlation between the invasive behaviour of gonococci and the expression of Opa proteins, a family of variable outer membrane proteins present in all pathogenic Neisseria species. However, only particular Opa proteins supported invasion into Chang cells as indicated by the use of two unrelated gonococcal strains. Invasion was sensitive to cytochalasin D, and strong adherence mediated by the Opa proteins appeared to be essential for the internalization of gonococci. In contrast pili, which also conferred binding to Chang conjunctiva cells, did not support cellular invasion but rather were inhibitory.
On the 230-kilobase-pair (kb) virulence plasmid of Shigella flexneri 2a strain YSH6000, at least seven separate genetic determinants have been identified. One of them, an approximately 4-kb region, virG, that is required for the Sereny reaction, was extensively studied to examine the role of the virG region. The phenotype of a VirG-mutant (M94) of YSH6000 in the cytoplasm of cultured MK cels was characterized by a kinetic study of the invading shigellae. The observed phenotype of M94 in the cytoplasm indicated that the virG locus is not required for multiplication of the invading shigellae, but is essential for their spread to adjacent cells. The DNA region necessary for the VirG function was localized to a 3.6-kb DNA sequence on the 230-kb plasmid. A 130-kilodalton polypeptide was confirmed to be the virG product. External labeling of bacteria with 1251 indicated that the 130-kilodalton virG protein is exposed on the bacterial surface. The nucleotide sequence of 4,472 bp, which contains the functional virG gene and its own regulatory sequence, was determined, and a large open reading frame encoding 1,102 amino acid residues was identified.
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