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Bacterial two-component and hetero-heptameric pore-forming cytolytic toxins: structures, pore-forming mechanism, and organization of the genes.
Kaneko J, Kamio Y. Kaneko J, et al. Among authors: kamio y. Biosci Biotechnol Biochem. 2004 May;68(5):981-1003. doi: 10.1271/bbb.68.981. Biosci Biotechnol Biochem. 2004. PMID: 15170101 Review.
Structural basis for pore-forming mechanism of staphylococcal α-hemolysin.
Sugawara T, Yamashita D, Kato K, Peng Z, Ueda J, Kaneko J, Kamio Y, Tanaka Y, Yao M. Sugawara T, et al. Among authors: kamio y. Toxicon. 2015 Dec 15;108:226-31. doi: 10.1016/j.toxicon.2015.09.033. Epub 2015 Sep 30. Toxicon. 2015. PMID: 26428390
Molecular basis of transmembrane beta-barrel formation of staphylococcal pore-forming toxins.
Yamashita D, Sugawara T, Takeshita M, Kaneko J, Kamio Y, Tanaka I, Tanaka Y, Yao M. Yamashita D, et al. Among authors: kamio y. Nat Commun. 2014 Sep 29;5:4897. doi: 10.1038/ncomms5897. Nat Commun. 2014. PMID: 25263813
Preliminary X-ray crystallographic study of staphylococcal α-haemolysin monomer.
Sugawara T, Yamashita D, Tanaka Y, Kaneko J, Kamio Y, Tanaka I, Yao M. Sugawara T, et al. Among authors: kamio y. Acta Crystallogr Sect F Struct Biol Cryst Commun. 2013 Aug;69(Pt 8):868-70. doi: 10.1107/S174430911301693X. Epub 2013 Jul 27. Acta Crystallogr Sect F Struct Biol Cryst Commun. 2013. PMID: 23908030 Free PMC article.
Cluster-forming property correlated with hemolytic activity by staphylococcal γ-hemolysin transmembrane pores.
Tomita N, Abe K, Kamio Y, Ohta M. Tomita N, et al. Among authors: kamio y. FEBS Lett. 2011 Nov 4;585(21):3452-6. doi: 10.1016/j.febslet.2011.09.041. Epub 2011 Oct 12. FEBS Lett. 2011. PMID: 22001207
2-Methyl-2,4-pentanediol induces spontaneous assembly of staphylococcal α-hemolysin into heptameric pore structure.
Tanaka Y, Hirano N, Kaneko J, Kamio Y, Yao M, Tanaka I. Tanaka Y, et al. Among authors: kamio y. Protein Sci. 2011 Feb;20(2):448-56. doi: 10.1002/pro.579. Protein Sci. 2011. PMID: 21280135 Free PMC article.
Crystal structure of the octameric pore of staphylococcal γ-hemolysin reveals the β-barrel pore formation mechanism by two components.
Yamashita K, Kawai Y, Tanaka Y, Hirano N, Kaneko J, Tomita N, Ohta M, Kamio Y, Yao M, Tanaka I. Yamashita K, et al. Among authors: kamio y. Proc Natl Acad Sci U S A. 2011 Oct 18;108(42):17314-9. doi: 10.1073/pnas.1110402108. Epub 2011 Oct 3. Proc Natl Acad Sci U S A. 2011. PMID: 21969538 Free PMC article.
Phosphatidylethanolamine plasmalogen enhances the inhibiting effect of phosphatidylethanolamine on γ-secretase activity.
Onodera T, Futai E, Kan E, Abe N, Uchida T, Kamio Y, Kaneko J. Onodera T, et al. Among authors: kamio y. J Biochem. 2015 May;157(5):301-9. doi: 10.1093/jb/mvu074. Epub 2014 Nov 18. J Biochem. 2015. PMID: 25409699
Peptidoglycan-associated outer membrane protein Mep45 of rumen anaerobe Selenomonas ruminantium forms a non-specific diffusion pore via its C-terminal transmembrane domain.
Kojima S, Hayashi K, Tochigi S, Kusano T, Kaneko J, Kamio Y. Kojima S, et al. Among authors: kamio y. Biosci Biotechnol Biochem. 2016 Oct;80(10):1954-9. doi: 10.1080/09168451.2016.1194185. Epub 2016 Jun 7. Biosci Biotechnol Biochem. 2016. PMID: 27310312 Free PMC article.
Cadaverine covalently linked to the peptidoglycan serves as the correct constituent for the anchoring mechanism between the outer membrane and peptidoglycan in Selenomonas ruminantium.
Kojima S, Kaneko J, Abe N, Takatsuka Y, Kamio Y. Kojima S, et al. Among authors: kamio y. J Bacteriol. 2011 May;193(9):2347-50. doi: 10.1128/JB.00106-11. Epub 2011 Mar 11. J Bacteriol. 2011. PMID: 21398553 Free PMC article.
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