Discovery of Antimicrobial Lysins from the “Dark Matter” of Uncharacterized Phages Using Artificial Intelligence

Zhang, Yue; Li, Runze; Zou, Geng; Guo, Yating; Wu, Renwei; Zhou, Yang; Chen, Huanchun; Zhou, Rui; Lavigne, Rob; Bergen, Phillip J.; Li, Jian; Li, Jinquan

doi:10.1002/advs.202404049

Advanced Science

2024

DOI: 10.1002/advs.202404049

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Discovery of Antimicrobial Lysins from the “Dark Matter” of Uncharacterized Phages Using Artificial Intelligence

Yue Zhang,

Runze Li,

Geng Zou

et al.

Abstract: The rapid rise of antibiotic resistance and slow discovery of new antibiotics have threatened global health. While novel phage lysins have emerged as potential antibacterial agents, experimental screening methods for novel lysins pose significant challenges due to the enormous workload. Here, the first unified software package, namely DeepLysin, is developed to employ artificial intelligence for mining the vast genome reservoirs (“dark matter”) for novel antibacterial phage lysins. Putative lysins are computat… Show more

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Harnessing AI for advancing pathogenic microbiology: a bibliometric and topic modeling approach

Tian,

Zhang,

Zhang

et al. 2024

Front. Microbiol.

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IntroductionThe integration of artificial intelligence (AI) in pathogenic microbiology has accelerated research and innovation. This study aims to explore the evolution and trends of AI applications in this domain, providing insights into how AI is transforming research and practice in pathogenic microbiology.MethodsWe employed bibliometric analysis and topic modeling to examine 27,420 publications from the Web of Science Core Collection, covering the period from 2010 to 2024. These methods enabled us to identify key trends, research areas, and the geographical distribution of research efforts.ResultsSince 2016, there has been an exponential increase in AI-related publications, with significant contributions from China and the USA. Our analysis identified eight major AI application areas: pathogen detection, antibiotic resistance prediction, transmission modeling, genomic analysis, therapeutic optimization, ecological profiling, vaccine development, and data management systems. Notably, we found significant lexical overlaps between these areas, especially between drug resistance and vaccine development, suggesting an interconnected research landscape.DiscussionAI is increasingly moving from laboratory research to clinical applications, enhancing hospital operations and public health strategies. It plays a vital role in optimizing pathogen detection, improving diagnostic speed, treatment efficacy, and disease control, particularly through advancements in rapid antibiotic susceptibility testing and COVID-19 vaccine development. This study highlights the current status, progress, and challenges of AI in pathogenic microbiology, guiding future research directions, resource allocation, and policy-making.

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Harnessing AI for advancing pathogenic microbiology: a bibliometric and topic modeling approach

Tian,

Zhang,

Zhang

et al. 2024

Front. Microbiol.

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Discovery of Antimicrobial Lysins from the “Dark Matter” of Uncharacterized Phages Using Artificial Intelligence

Cited by 1 publication

References 52 publications

Harnessing AI for advancing pathogenic microbiology: a bibliometric and topic modeling approach

Harnessing AI for advancing pathogenic microbiology: a bibliometric and topic modeling approach

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