Lysin and Lytic Phages Reduce Vibrio Counts in Live Feed and Fish Larvae

Romero, Jaime; Blas-Chumacero, Sergueia; Urzúa, Victoria; Villasante, Alejandro; Opazo, Rafael; Gajardo, Felipe; Miranda, Claudio D.; Rojas, Rodrigo

doi:10.3390/microorganisms12050904

Microorganisms

2024

DOI: 10.3390/microorganisms12050904

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Lysin and Lytic Phages Reduce Vibrio Counts in Live Feed and Fish Larvae

Jaime Romero,

Sergueia Blas-Chumacero,

Victoria Urzúa

et al.

Abstract: Vibrio species are naturally found in estuarine and marine ecosystems, but are also recognized as significant human enteropathogens, often linked to seafood-related illnesses. In aquaculture settings, Vibrio poses a substantial risk of infectious diseases, resulting in considerable stock losses and prompting the use of antimicrobials. However, this practice contributes to the proliferation of antimicrobial-resistant (AMR) bacteria and resistance genes. Our investigation aimed to explore the potential of biolog… Show more

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Unveiling Hidden Allies: In Silico Discovery of Prophages in Tenacibaculum Species

Ramírez,

Romero

2024

Antibiotics

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Tenacibaculosis, caused by Tenacibaculum species, is a significant disease in aquaculture, leading to high mortality and economic losses. Antibiotic treatment raises concerns about resistance, making phage therapy an interesting alternative. Analyzing phage traces in Tenacibaculum genomes is crucial for developing these bacteriophage-based strategies. Methods: We assessed the presence of prophages in 212 Tenacibaculum genomes/assemblies available in the NCBI repository, comprising several species and global locations, using the PHASTEST program. Then, we focused on those regions classified as intact, evaluating the most common phages found using VICTOR. The protein of interest discovered in the prophages was evaluated using the ProtParam, DeepTMHMM, InterPro, and Phyre2 tools. In addition, we evaluated the presence of antiphage defense systems in those genomes with intact prophages using the DefenseFinder tool. Results: We identified 25 phage elements in 24 out of the 212 Tenacibaculum genomes/assemblies analyzed, with 11% of the assemblies containing phage elements. These were concentrated in T. maritimum and T. mesophilum, which harbored 10 and 7 prophage regions, respectively. Of the identified elements, six were classified as intact, including four in T. maritimum, with the most common phages belonging to the Pippivirus and Siphoviridae families. Bioinformatic analysis showed that the putative endolysin is a stable protein of 432 amino acids and 49.8 kDa, with three transmembrane helices and a CHAP domain, structurally similar to the CHAP lytic domain of S. aureus bacteriophage K. Conclusions: Key prophage elements in Tenacibaculum, especially in T. maritimum, show promise for phage therapy against tenacibaculosis, supporting sustainable, antibiotic-free treatments in aquaculture.

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Unveiling Hidden Allies: In Silico Discovery of Prophages in Tenacibaculum Species

Ramírez,

Romero

2024

Antibiotics

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show abstract

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Lysin and Lytic Phages Reduce Vibrio Counts in Live Feed and Fish Larvae

Cited by 1 publication

References 69 publications

Unveiling Hidden Allies: In Silico Discovery of Prophages in Tenacibaculum Species

Unveiling Hidden Allies: In Silico Discovery of Prophages in Tenacibaculum Species

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