Complete Genome Sequence of a Multidrug-Resistant Strain, Escherichia coli ATCC BAA-196, as a Model for Studying Induced Antibiotic Resistance Reversion

Here, we report the complete genome sequence of the multidrug-resistant Escherichia coli strain ATCC BAA-196, a model organism used for studying possible antibiotic resistance reversion induced by FS-1, an iodine-containing complex. Two genomes, representing FS-1-treated and negative-control variants and composed of a chromosome and several plasmids, were assembled.

E scherichia coli ATCC BAA-196 was isolated in 1988 at a chronic-care facility in Massachusetts and at first was misidentified as Klebsiella pneumoniae (1,2). It produces extended-spectrum beta-lactamases (3,4). This strain was used as a model of nosocomial drug-resistant infections for studying the effect of the iodine-containing complex FS-1 in reverting drug resistance (5,6).
The strain was cultivated for 10 daily passages in Mueller-Hinton broth (HiMedia, India) with FS-1 (500 g/ml) (FS genome) or without FS-1 (negative-control [NC] genome), in three repeats. DNA was extracted using the PureLink genomic DNA kit (Thermo Fisher). Samples were prepared according to the SMRTbell preparation guide for the PacBio RS II system. Sequencing was performed at Macrogen (South Korea) with SMRT Cell 8Pac v3 cells using the DNA polymerase binding kit P6, following the SMRTbell 20-kb library preparation protocol. For the NC and FS genomes, 334,150 and 429,631 reads, respectively, were generated (N 50 , 9,500 kb). After read-quality trimming using the UGENE v1.32.0 raw DNA-seq processing pipeline with default settings (7), the genomes were assembled with SMRT Link v5.0.1 with default parameters (8). The FS and NC genome assemblies are 4,682,561 and 4,682,572 bp, respectively (GC content, 51%; coverage, 250-fold); the genomes also include large plasmids of 266,396 and 279,992 bp, respectively (GC content, 47%), showing 90 to 99% sequence similarity to Klebsiella pneumoniae plasmid pKP64477b. The FS genome plasmid has an insertion of a prophage flanked by two copies of insH transposases. Moreover, the FS-1-treated strain contains two smaller plasmids (44,240 and 11,153 bp), which are excision products of the large plasmid. A plasmid-destabilizing effect of FS-1 was hypothesized.
Horizontally transferred genomic islands (Fig. 1) were identified by SeqWord Sniffer (11). Genomic islands and plasmids contain genetic determinants associated with antibiotic resistance, including beta-lactamases of the A and D classes, the tellurium resistance operon terABCDW, the arsenic resistance gene arsR, chloramphenicol and aminoglycoside acetyltransferases, and several other genes for antibiotic-modifying enzymes, drug resistance regulators, and multidrug efflux proteins. Virulence-associated fimbrial adhesin genes ecpD and fimHBGFE were acquired horizontally.
The SMRT Link DNA modification pipeline (12) was used to profile epigenetic modifications in bacterial genomes. The most abundant DNA modification was N 6 -adenosine methylation in both strands, at GATC and GCAC(N 6 )GTT restriction sites (methylated nucleotides are underlined, and thymidine nucleotides opposing methylated ones on the complement strand are in italic type), corresponding to typical findings for E. coli DAM methyltransferases associated with EcoRV and EcoKI restriction-modification complexes (13,14). Methylated GATC sequences often occurred in tandem with cytosine methylation in CRGKGATC motifs. Two other cytosine methylation motifs, CCAGGRAH and WCCCTGGYR, controlled by EcoRII family restriction-modification genes (15) showed alternative distribution patterns in the NC and FS genomes.
Data availability. NCBI accession numbers are CP042865 and CP042866 for the chromosome and plasmid, respectively, of the variant NC genome (PacBio reads SRR10112463, SRR10112464, and SRR10112472) and CP042867 to CP042870 for the chromosome and three plasmids of the variant FS genome (PacBio reads SRR10112466 to SRR10112468).

ACKNOWLEDGMENTS
Sequencing was funded by grant O.0776 from the Industrial Development and Industrial Safety Committee of the Ministry of Industry and Infrastructural Development of the Republic of Kazakhstan. Genome assembly, annotation, and bioinformatic anal-