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Journal Abstract Search

87 related items for PubMed ID: 10972804

  • 1. The N-terminal prepeptide is required for the production of spore cortex-lytic enzyme from its inactive precursor during germination of Clostridium perfringens S40 spores.
    Okamura S, Urakami K, Kimata M, Aoshima T, Shimamoto S, Moriyama R, Makino S.
    Mol Microbiol; 2000 Aug; 37(4):821-7. PubMed ID: 10972804
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  • 3. Physiological role of carbon dioxide in spore germination of Clostridium perfringens S40.
    Kato S, Masayama A, Yoshimura T, Hemmi H, Tsunoda H, Kihara T, Moriyama R.
    J Biosci Bioeng; 2009 Dec; 108(6):477-83. PubMed ID: 19914579
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  • 6. A gene (sleC) encoding a spore-cortex-lytic enzyme from Clostridium perfringens S40 spores; cloning, sequence analysis and molecular characterization.
    Miyata S, Moriyama R, Miyahara N, Makino S.
    Microbiology (Reading); 1995 Oct; 141 ( Pt 10)():2643-50. PubMed ID: 7582025
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  • 7. Molecular characterization of a germination-specific muramidase from Clostridium perfringens S40 spores and nucleotide sequence of the corresponding gene.
    Chen Y, Miyata S, Makino S, Moriyama R.
    J Bacteriol; 1997 May; 179(10):3181-7. PubMed ID: 9150212
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  • 8. Mode of action of a germination-specific cortex-lytic enzyme, SleC, of Clostridium perfringens S40.
    Kumazawa T, Masayama A, Fukuoka S, Makino S, Yoshimura T, Moriyama R.
    Biosci Biotechnol Biochem; 2007 Apr; 71(4):884-92. PubMed ID: 17420590
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  • 9. Location and stoichiometry of the protease CspB and the cortex-lytic enzyme SleC in Clostridium perfringens spores.
    Banawas S, Korza G, Paredes-Sabja D, Li Y, Hao B, Setlow P, Sarker MR.
    Food Microbiol; 2015 Sep; 50():83-7. PubMed ID: 25998819
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  • 10. The serine proteases CspA and CspC are essential for germination of spores of Clostridium perfringens SM101 through activating SleC and cortex hydrolysis.
    Talukdar PK, Sarker MR.
    Food Microbiol; 2020 Apr; 86():103325. PubMed ID: 31703860
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  • 11. Energy-dependent activation of spore-lytic enzyme precursor by germinated spores of Clostridium perfringens.
    Ando Y, Tsuzuki T.
    Biochem Biophys Res Commun; 1984 Sep 17; 123(2):463-7. PubMed ID: 6091628
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  • 13. Effect of the cortex-lytic enzyme SleC from non-food-borne Clostridium perfringens on the germination properties of SleC-lacking spores of a food poisoning isolate.
    Paredes-Sabja D, Sarker MR.
    Can J Microbiol; 2010 Nov 17; 56(11):952-8. PubMed ID: 21076486
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  • 14. Extraction of spore-lytic enzyme from Clostridium perfringens spores.
    Gombas DE, Labbe RG.
    J Gen Microbiol; 1981 Sep 17; 126(1):37-44. PubMed ID: 6278055
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  • 16. Localization of germination-specific spore-lytic enzymes in Clostridium perfringens S40 spores detected by immunoelectron microscopy.
    Miyata S, Kozuka S, Yasuda Y, Chen Y, Moriyama R, Tochikubo K, Makino S.
    FEMS Microbiol Lett; 1997 Jul 15; 152(2):243-7. PubMed ID: 9231416
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  • 17. The crystal structure of Clostridium perfringens SleM, a muramidase involved in cortical hydrolysis during spore germination.
    Al-Riyami B, Üstok FI, Stott K, Chirgadze DY, Christie G.
    Proteins; 2016 Nov 15; 84(11):1681-1689. PubMed ID: 27488615
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  • 18. Spore lytic enzyme released from Clostridium perfringens spores during germination.
    Ando Y.
    J Bacteriol; 1979 Oct 15; 140(1):59-64. PubMed ID: 227836
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  • 19. Germination response of spores of the pathogenic bacterium Clostridium perfringens and Clostridium difficile to cultured human epithelial cells.
    Paredes-Sabja D, Sarker MR.
    Anaerobe; 2011 Apr 15; 17(2):78-84. PubMed ID: 21315167
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  • 20. Mechanism of chemical manipulation of the heat resistance of Clostridium perfringens spores.
    Ando Y, Tsuzuki T.
    J Appl Bacteriol; 1983 Apr 15; 54(2):197-202. PubMed ID: 6303999
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