Whole Genome Sequences, De Novo Assembly, and Annotation of Antibiotic Resistant Campylobacter jejuni Strains S27, S33, and S36 Newly Isolated from Chicken Meat.
Yiping HeSiddhartha KanrarSue ReedJoe LeeJoseph A CapobiancoPublished in: Microorganisms (2024)
Campylobacter is a leading bacterial cause of gastrointestinal infections in humans and has imposed substantial medical and public health burdens worldwide. Among a total of 39 species in the Campylobacter genus, C. jejuni is the most important species responsible for approx. 90% of human Campylobacter illness. Most cases of the infection were acquired by ingesting undercooked poultry meat due to the high prevalence of Campylobacter in the products. Here, we reported the dataset of raw sequences, de novo assembled and annotated genomes of C. jejuni strains S27, S33, and S36 recently isolated from retail chicken by using PacBio highly accurate long-read sequencing technology combined with bioinformatics tools. Our data revealed several virulence and antibiotic resistance genes in each of the chromosomes, a type IV secretion system in the plasmid (pCjS33) of C. jejuni S33, and a type VI secretion system and a phage in the plasmid (pCjS36) of C. jejuni S36. This study not only provides new sequence data but also extends the knowledge pertaining to the genomic and functional aspects of this important foodborne pathogen, including the genetic determinants of virulence and antibiotic resistance.
Keyphrases
- antimicrobial resistance
- biofilm formation
- escherichia coli
- pseudomonas aeruginosa
- public health
- candida albicans
- staphylococcus aureus
- antibiotic resistance genes
- healthcare
- endothelial cells
- single cell
- microbial community
- genetic diversity
- copy number
- crispr cas
- wastewater treatment
- high resolution
- machine learning
- dna methylation
- genome wide
- data analysis
- single molecule
- artificial intelligence
- pluripotent stem cells