Pylum Publications

• February 6, 2020 Action of a minimal contractile bactericidal nanomachine
• September 6, 2017 New class of precision antimicrobials redefines role of Clostridium difficile S-layer in virulence and viability
• February 28, 2017 Bacteriophage SP6 encodes a second tailspike protein that recognizes Salmonella enterica serogroups C₂ and C₃
• March 30, 2015 Atomic structures of a bactericidal contractile nanotube in its pre- and postcontraction states
• March 24, 2015 A Modified R-Type Bacteriocin Specifically Targeting Clostridium difficile Prevents Colonization of Mice without Affecting Gut Microbiota Diversity
• September 14, 2012 Gebhart D, et al. (2012)
  Novel High-Molecular Weight, R-Type Bacteriocins of Clostridium difficile.
  Journal of Bacteriology 194: 6240-6247.
• March 14, 2012 Scholl D, et al. (2012)
  Genome Sequence of E. coli 0104:H4 Leads to rapid Development of a Targeted Antimicrobial Agent against This Emerging Pathogen
  Plos One 7: 1-5.
• December 15, 2011 Guo H, et al. (2011)
  Target Site Recognition by a Diversity-Generating Retroelement.
  Plos Genetics 7: 1-16.
• September 26, 2011 Ritchie J, et al. (2011)
  An Escherichia coli O157-Specific Engineered Pyocin Prevents and Ameliorates Infection by E. coli O157:H7 in an Animal Model of Diarrheal Disease.
  AAC 55: 5469-5474.
• April 6, 2009 Scholl D, et al. (2009)
  An Engineered R-Type Pyocin Is a Highly Specific and Sensitive Bactericidal Agent for the Food-Borne Pathogen Escherichia coli O157:H7.
  AAC 53: 3074-3080.