Bacterial Two-component and Hetero-heptameric Pore-forming Cytolytic Toxins: Structures, Pore-forming Mechanism, and Organization of the Genes

6) Kamio, Y., Tomita, T., and Kaneko, J., Pore-forming cytolysin fromStaphylococcus aureus, α- and γ-hemolysin, and leukocidin. In “Staphylococcal Infection and Immunity”, ed. Friedman, I., Kluwer Academic/Plenum Publishers, New York, pp. 179–212 (2001).

13) Alberts, B., Alexander, J., Lewis, J., Raff, M., Roberts, K., and Walter, P., Protein, Cytoskeleton. In “Molecular Biology of the Cell” 4th ed., Garland Science, New York, pp. 147–162, 907–915 (2002).

22) Van der Goot, G. “Pore-forming Toxins”, Springer-Verlag, Berlin, Heidelberg (2001).

50) Monma, N., Nguyen, V. T., Yokota, K., Kaneko, J., Higuchi, H., and Kamio, Y., To be published elsewhere (2004).

64) Mu50 website; http://w3.grt.kyushu-u.ac.jp/VRSA/

81) Narita, S., Kaneko, J., and Kamio, Y., The staphylococcal infection by a PVL-converting phage, φSLT starts with molecular interaction between lipoteichoic acid and the structural protein ORF636 of the phage. To be published elsewhere (2004).

84) Novick, R. P., TheStaphylococcusas a molecular genetic system. In “Molecular Biology of the Staphylococci”, VCH Publisers, NY, pp. 1–37 (1990).

94) Chiba, J., personal communication.