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Background The association between an imbalanced gut virus community and colorectal cancer (CRC) is well-established, while the specific characteristics and genomic functions of these viruses remain poorly understood. This study aimed to investigate the lifestyle, gene function, single nucleotide polymorphisms (SNPs), structural variations (SVs), and phage-host interactions of gut viruses in CRC through the analysis of assembled viral genomes. Methods Fecal samples were collected from CRC patients and healthy controls, and virus-like particles (VLPs) were isolated. PacBio sequencing platforms were used to sequence VLP DNA with a minimum length of 15 kb and at least 10 μg per sample. The gut virus genomes were assembled and annotated using Canu and EggNog. MetaPop and Sniffles2 were employed for SNP/SV analysis. Results After assembling and filtering, more than 23,000 high-quality gut virus genomes were obtained. The prevalence of novel viruses was higher in CRC compared to the healthy control group. Notably, the proportion of phages, particularly temperate phages, was significantly higher in CRC than in the healthy control group (P Bacteroides fragilis-hosted phage genomes and their relative abundance were significantly lower in CRC than in healthy controls (P Conclusions Multidimensional analysis based on PacBio sequencing revealed substantial changes in gut virus communities, lifestyle, gene function, SNP/SV, and phage-host interactions in CRC patients compared to healthy controls. Gut virus abundance and SNPs show promise as potential biomarkers for diagnosing CRC.
Ding et al. (Thu,) studied this question.