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Related Concept Videos

Antimicrobial Proteins01:23

Antimicrobial Proteins

889
Antimicrobial proteins are important components of the immune system. They aid the body in combating pathogens by either killing them directly or hindering their replication processes. Four main types of antimicrobial substances are interferons, the complement system, iron-binding proteins, and antimicrobial proteins.
Interferons
Interferons (IFNs) are proteins produced by lymphocytes, macrophages, and fibroblasts infected with viruses. While IFNs cannot prevent viruses from entering and...
889
Antimicrobial Effectiveness01:28

Antimicrobial Effectiveness

The effectiveness of antimicrobial agents depends on various factors influencing their ability to eliminate microbial populations. Larger microbial populations require more time for complete eradication, emphasizing the importance of population size analysis when evaluating antimicrobial efficacy.Microbial resistance to antimicrobial agents varies significantly. Highly resilient microorganisms include endospores, gram-negative bacteria, and non-enveloped viruses, while prions are exceptionally...
Biological Methods for Microbial Control01:28

Biological Methods for Microbial Control

Biological agents offer an effective means of controlling microbial growth by leveraging natural processes like predation, competition, and the secretion of antimicrobial substances.Predatory bacteria such as Bdellovibrio species target and kill pathogens like Salmonella and E. coli. They are widely used in poultry farms to control infections. Myxococcus species help combat plant-pathogenic fungi. These naturally occurring predators serve as eco-friendly alternatives to chemical pesticides and...

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Antimicrobial Peptides Produced by Selective Pressure Incorporation of Non-canonical Amino Acids
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AI Methods for Antimicrobial Peptides: Progress and Challenges.

Carlos A Brizuela1, Gary Liu2, Jonathan M Stokes2

  • 1Department of Computer Science, CICESE Research Center, Ensenada, Mexico.

Microbial Biotechnology
|January 4, 2025
PubMed
Summary
This summary is machine-generated.

Artificial intelligence (AI) accelerates antimicrobial peptide (AMP) discovery. This review highlights advanced AI, including large language models (LLMs) and graph neural networks (GNNs), for identifying novel AMPs against drug-resistant pathogens.

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Area of Science:

  • Biochemistry and Bioinformatics
  • Computational Biology
  • Drug Discovery

Background:

  • Antimicrobial peptides (AMPs) show promise against multidrug-resistant pathogens.
  • Traditional screening methods are costly and time-consuming.
  • AI, particularly machine learning (ML), is crucial for accelerating AMP identification and design.

Purpose of the Study:

  • To provide a comprehensive overview of AI methods in AMP discovery and design.
  • To focus on emerging AI techniques like large language models (LLMs) and graph neural networks (GNNs).
  • To address the limitations and future opportunities in AI-driven AMP research.

Main Methods:

  • Review of recent advancements in AI for AMP discovery.
  • Analysis of classical ML, deep learning (DL), LLMs, and GNNs.
  • Exploration of structure-guided AMP design approaches.

Main Results:

  • AI has revolutionized the discovery of anti-infective peptides.
  • A shift from classical ML to DL models is observed.
  • LLMs, GNNs, and structure-guided design represent significant, underexplored potential.

Conclusions:

  • AI methods are vital for overcoming challenges in AMP discovery.
  • Further research into LLMs, GNNs, and structure-guided design is needed.
  • Addressing current limitations will pave the way for future AMP development.