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Full-Text Articles in Medicine and Health Sciences
Investigation Of The Role Of Hydrophobic Amino Acids On The Structure-Activity Relationship In Ponericin L1 From Neoponera Goeldii, Nicholas Patrick Schifano
Investigation Of The Role Of Hydrophobic Amino Acids On The Structure-Activity Relationship In Ponericin L1 From Neoponera Goeldii, Nicholas Patrick Schifano
Theses and Dissertations
Due to the increase prevalence of antimicrobial resistance (AMR) antibiotic alternatives have been of great interest. Antimicrobial peptides (AMPs) and polymers like polymethacrylates that mimic AMPs are two non-traditional antimicrobial agents that have been investigated thoroughly over the years as a potential solution to the AMR problem. This study will further the understanding of the L1 peptide by investigating the role hydrophobic amino acids have on the antimicrobial activity. Biophysical and microbiological techniques were utilized to show that the L1 hydrophobic derivative showed enhanced binding to anionic lipid bilayers while maintaining low hemolytic activity. This study also elucidates the effect …
Investigation Of The Sequence-Structure-Activity Relationship In Ponericin L1 From Neoponera Goeldii & Synergistic Interactions Of Ionic Liquids And Antimicrobials To Improve Efficacy, Alexandria S. Senetra
Investigation Of The Sequence-Structure-Activity Relationship In Ponericin L1 From Neoponera Goeldii & Synergistic Interactions Of Ionic Liquids And Antimicrobials To Improve Efficacy, Alexandria S. Senetra
Theses and Dissertations
Non-traditional antimicrobials have been an area of great interest due to the increasing prevalence of antimicrobial resistance (AMR) in bacteria. Antimicrobial peptides (AMPs) & ionic liquids (ILs) are two examples that have been investigated as a potential solution. Most AMPs are naturally derived & exhibit high selectivity against bacterial targets over host cells. The venom-derived peptide, ponericin L1 from Neoponera goeldii, was used to investigate the role of cationic residues & net charge on peptide activity. Using both in vitro & microbiological methods, L1 peptide & derivatives exhibited an alpha-helical conformation with enhanced binding to lipid vesicles containing anionic lipids …