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Journal Abstract Search

106 related items for PubMed ID: 32612365

  • 1. Using More Than 1 (Path)Way to Kill a Host Cell: Lessons From Clostridium perfringens Enterotoxin.
    McClane B, Shrestha A.
    Microbiol Insights; 2020; 13():1178636120931518. PubMed ID: 32612365
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  • 2. RIP1, RIP3, and MLKL Contribute to Cell Death Caused by Clostridium perfringens Enterotoxin.
    Shrestha A, Mehdizadeh Gohari I, McClane BA.
    mBio; 2019 Dec 17; 10(6):. PubMed ID: 31848291
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  • 3. The biology and pathogenicity of Clostridium perfringens type F: a common human enteropathogen with a new(ish) name.
    Shrestha A, Mehdizadeh Gohari I, Li J, Navarro M, Uzal FA, McClane BA.
    Microbiol Mol Biol Rev; 2024 Sep 26; 88(3):e0014023. PubMed ID: 38864615
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  • 4. The Potential Therapeutic Agent Mepacrine Protects Caco-2 Cells against Clostridium perfringens Enterotoxin Action.
    Freedman JC, Hendricks MR, McClane BA.
    mSphere; 2017 Sep 26; 2(4):. PubMed ID: 28875177
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  • 5. The importance of calcium influx, calpain and calmodulin for the activation of CaCo-2 cell death pathways by Clostridium perfringens enterotoxin.
    Chakrabarti G, McClane BA.
    Cell Microbiol; 2005 Jan 26; 7(1):129-46. PubMed ID: 15617529
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  • 6. Bystander Host Cell Killing Effects of Clostridium perfringens Enterotoxin.
    Shrestha A, Hendricks MR, Bomberger JM, McClane BA.
    mBio; 2016 Dec 13; 7(6):. PubMed ID: 27965452
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  • 7. The interaction of Clostridium perfringens enterotoxin with receptor claudins.
    Shrestha A, Uzal FA, McClane BA.
    Anaerobe; 2016 Oct 13; 41():18-26. PubMed ID: 27090847
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  • 8. Potential Therapeutic Effects of Mepacrine against Clostridium perfringens Enterotoxin in a Mouse Model of Enterotoxemia.
    Navarro MA, Shrestha A, Freedman JC, Beingesser J, McClane BA, Uzal FA.
    Infect Immun; 2019 Apr 13; 87(4):. PubMed ID: 30642896
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  • 9. Evidence that Clostridium perfringens Enterotoxin-Induced Intestinal Damage and Enterotoxemic Death in Mice Can Occur Independently of Intestinal Caspase-3 Activation.
    Freedman JC, Navarro MA, Morrell E, Beingesser J, Shrestha A, McClane BA, Uzal FA.
    Infect Immun; 2018 Jul 13; 86(7):. PubMed ID: 29685988
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  • 11. Structural Basis of Clostridium perfringens Enterotoxin Activation and Oligomerization by Trypsin.
    Ogbu CP, Kapoor S, Vecchio AJ.
    Toxins (Basel); 2023 Oct 31; 15(11):. PubMed ID: 37999500
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  • 12. Identification of an Important Orphan Histidine Kinase for the Initiation of Sporulation and Enterotoxin Production by Clostridium perfringens Type F Strain SM101.
    Freedman JC, Li J, Mi E, McClane BA.
    mBio; 2019 Jan 22; 10(1):. PubMed ID: 30670619
    [Abstract] [Full Text] [Related]

  • 13. Clostridium perfringens Enterotoxin: Action, Genetics, and Translational Applications.
    Freedman JC, Shrestha A, McClane BA.
    Toxins (Basel); 2016 Mar 16; 8(3):. PubMed ID: 26999202
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  • 14. Characterizing the Contributions of Various Clostridium perfringens Enterotoxin Properties to In Vivo and In Vitro Permeability Effects.
    Shrestha A, Navarro MA, Beingesser J, Armien AG, Uzal FA, McClane BA.
    mSphere; 2022 Oct 26; 7(5):e0027622. PubMed ID: 36069435
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  • 20. The Effect of Caco-2 Cells on Sporulation and Enterotoxin Expression by Foodborne Clostridium perfringens.
    Wang C, Defoirdt T, Rajkovic A.
    Pathogens; 2024 May 21; 13(6):. PubMed ID: 38921731
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