BALROG-MON: a high-throughput pipeline for Bacterial AntimicrobiaL Resistance annOtation of Genomes-Metagenomic Oxford Nanopore.

microPublication biology Pub Date : 2025-02-19 eCollection Date: 2025-01-01 DOI:10.17912/micropub.biology.001427
Edward Bird, Victoria Pickens, David Molik, Kristopher Silver, Dana Nayduch
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Abstract

BALROG-MON is a Nextflow pipeline for automated analysis of metagenomic long-read data to detect pathogens, annotate antimicrobial resistance genes (ARGs), link ARGs to specific pathogens, predict ARG origin (e.g., plasmid, chromosomal) and optionally perform steps like community analysis. With both assembly-based and assembly-free workflows, BALROG-MON is applicable to a wide range of sample types with low or high coverage, varying complexities and origins. Optional genome binning provides a comprehensive overview of ARGs within the dataset. BALROG-MON additionally presents results in summarized reports, overall serving as a flexible analysis tool for exploring diverse metagenomic samples for pathogens and antibiotic resistance.

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BALROG-MON:高通量的基因组-元基因组牛津纳米孔细菌抗菌性分析管道。
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microPublication biology
microPublication biology
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Corrigendum: Not All Bacterial Outer-Membrane Proteins Are β-Barrels. BALROG-MON: a high-throughput pipeline for Bacterial AntimicrobiaL Resistance annOtation of Genomes-Metagenomic Oxford Nanopore. Eurasian beaver ( Castor fiber ) mating behavior. Global γH2AX phosphorylation in Drosophila is reversed by the phosphatase Mts. PCR-fingerprinting of culturable yeasts from commercially obtained beers: a simple and engaging applied microbiological laboratory exercise.
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