AI Article Synopsis
- Bacterial infections are a big health problem, and scientists are looking at special proteins called antimicrobial peptides (AMPs) to help fight them.
- Researchers created a new AMP called EcDBS1R6 by changing a peptide from the bacteria E. coli using something called the Joker algorithm.
- The study found that this modified peptide can effectively kill bacteria, and it shows that transforming signal peptides into AMPs could lead to new ways to create medicines against infections.
Article Abstract
Background: Bacterial infections represent a major worldwide health problem the antimicrobial peptides (AMPs) have been considered as potential alternative agents for treating these infections. Here we demonstrated the antimicrobial activity of EcDBS1R6, a peptide derived from a signal peptide sequence of Escherichia coli that we previously turned into an AMP by making changes through the Joker algorithm.
Methods: Antimicrobial activity was measured by broth microdilution method. Membrane integrity was measured using fluorescent probes and through scanning electron microscopy imaging. A sliding window of truncated peptides was used to determine the EcDBS1R6 active core. Molecular dynamics in TFE/water environment was used to assess the EcDBS1R6 structure.
Results: Signal peptides are known to naturally interact with membranes; however, the modifications introduced by Joker transformed this peptide into a membrane-active agent capable of killing bacteria. The C-terminus was unable to fold into an α-helix whereas its fragments showed poor or no antimicrobial activity, suggesting that the EcDBS1R6 antibacterial core was located at the helical N-terminus, corresponding to the signal peptide portion of the parent peptide.
Conclusion: The strategy of transforming signal peptides into AMPs appears to be promising and could be used to produce novel antimicrobial agents.
General Significance: The process of transforming an inactive signal peptide into an antimicrobial peptide could open a new venue for creating new AMPs derived from signal peptides.
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| http://dx.doi.org/10.1016/j.bbagen.2020.129633 | DOI Listing |
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