Genome sequencing and genomic characterization of a tigecycline-resistant Klebsiella pneumoniae strain isolated from the bile samples of a cholangiocarcinoma patient

Whole-genome shotgun sequencing of K. pneumoniae strain 5422 was performed using a standard run of IlluminaHiSeq2000 sequencing by generating paired-end libraries (500-bp insert size) with a 2 × 100 pair-end sequencing strategy according to the manufacturer’s instructions. Clean reads were assembled into scaffolds using Velvet version 1.2.07 [18], and then we used PAGIT (Post-Assembly Genome Improvement Toolkit) [19] to extend the initial contiguous sequences (contigs) and correct sequencing errors. We identified tRNAs and rRNAs using tRNAscan-SE [20] and RNAmmer [21], respectively. Open reading frames (ORFs) were identified using Glimmer version 3.0 [22]. The genome was annotated using the RAST (Rapid Annotation using Subsystem Technology) server [23]. The classification of some predicted genes and pathways was analyzed using the COGs (Clusters of Orthologous Groups of proteins) [24] and KEGG (Kyoto Encyclopedia of Genes and Genomes) [25] databases. Stretches of amino acids containing the efflux pump genes were searched using BLAST (Basic Local Alignment Search Tool, http://​blast.​ncbi.​nlm.​nih.​gov/​Blast.​cgi); protein-coding sequences were further BLAST-searched against the Antibiotic Resistance Database (ARDB) [26]. To find genes with hypothetical or putative functions, we aligned genes against the National Center for Biotechnology Information (NCBI) nucleotide sequence database (downloaded September 20, 2013) using NCBI BLASTn: we accepted only hits with identity of ≥ 0.95, coverage ≥0.9, and putative or hypothetical reference gene annotation.

For comparative analysis, we downloaded the reference genome sequences of the closest genetic relatives of K. pneumoniae strain 5422 and representative strains from the NCBI website: K. pneumoniae LCT-KP182 (ATRN00000000), K. pneumoniae LCT-KP289 (ATRO00000000), K. pneumoniae subsp. pneumoniae LZ (AJVY00000000), K. pneumoniae ATCC BAA-2146 (AOCV00000000), K. pneumoniae 12 3578 (PRJNA199972), K. pneumoniae NB60 (AZAP00000000), K. pneumoniae subsp. pneumoniae 1084 (CP003785), K. pneumoniae subsp. pneumoniae NTUH-K2044 (AP006725), K. pneumoniae subsp. pneumoniae WGLW5 (AMLO00000000), K. pneumoniae ATCC 25955 (AQQH00000000), and K. pneumoniae G5-2 (AQQI00000000). Whole-genome alignments, single-nucleotide polymorphism (SNP) identification, and phylogenetic tree construction were performed using snpTree version 1.1, a server for online automatic SNP analysis of assembled genomes (http://​cge.​cbs.​dtu.​dk/​services/​snpTree-1.​1/​) [27].

Filtered 520.8 M clean reads were assembled into scaffolds, and corresponding 99-fold coverage of the genome was generated. The draft genome sequence of K. pneumoniae strain 5422 was 5,432,440 bp in size and had a G + C content of 57.1% in 133 contigs, with N50 spanning 105,586 bp. Figure 1A depicts the overall genome profile. Annotation of this assembly identified 5,397 coding sequences (CDSs), 65 tRNAs (excluding 0 pseudo tRNAs), and incomplete rRNA operons (three small subunit rRNAs, four large subunit rRNAs). We assigned putative function or hypothetical proteins to 1,478 protein-coding genes. We categorized 4,218 genes into COGs functional groups (including putative or hypothetical genes, Figure 1B). For COGs distribution, R (general function prediction only; 874 ORFs), E (amino acid transport and metabolism; 747 ORFs), G (carbohydrate metabolism and transport; 679 ORFs), and P (inorganic ion transport and metabolism; 525 ORFs) were abundant categories (>10% of total COGs matched counts).

Figure 2A illustrates the subsystem distribution and general information on the potential functional distribution of K. pneumoniae strain 5422. Genes responsible for carbohydrates (825 ORFs); amino acids and derivatives (520 ORFs); and cofactors, vitamins, prosthetic groups, and pigments (325 ORFs) were abundant among the SEED subsystem categories. Based on the raw reads and assembled genomes from published K. pneumoniae WGS data sets, we conducted phylogenetic analysis on tree topology and the SNP positions of the reference genome to identify the most closely related organism. The phylogenetic tree based on whole-genome SNPs showed that the closest ancestor to K. pneumoniae strain 5422 was K. pneumoniae ATCC BAA-2146 (Figure 2B), which is the first US isolate found to encode New Delhi metallo-β-lactamase 1 (NDM-1), eight β-lactamases, and 15 additional antibiotic-resistance enzymes [28],[29].

The RND family members are important mediators of MDR in Gram-negative bacteria. The AcrAB-TolC system in Escherichia coli and the MexAB-OprM complexes in P. aeruginosa are extremely well characterized, and the three-dimensional structures of various components have been resolved [30]. In the genome of K. pneumoniae strain 5422, 16 genes were indicated as probable efflux pumps or translational regulators based on their sequence similarity to known RND efflux pump genes (Table 1).

This research was approved by the Research Ethics Committee of the First Affiliated Hospital, School of Medicine, Zhejiang University, and informed consent was obtained from the patient.