Your search keyword '"Kim Ngan Thi Bui"' showing total 2 results

1. A high-throughput sequencing determination method for upstream genetic structure (UGS) of ISEcp1-blaCTX-M transposition unit and application of the UGS to classification of bacterial isolates possessing blaCTX-M

Author

Danh Tuyen Le, Shuhei Ueda, Kouta Hamamoto, Kim Ngan Thi Bui, Itaru Hirai, Mai Huong Thi Bui, Nobuyoshi Yagi, and Saki Tawata

Subjects

0301 basic medicine, Microbiology (medical), Genetics, 030106 microbiology, Bacterial genome size, Biology, DNA sequencing, HaeIII, 03 medical and health sciences, Restriction enzyme, 0302 clinical medicine, Infectious Diseases, Plasmid, Chromosomal region, medicine, Pharmacology (medical), 030212 general & internal medicine, Insertion sequence, medicine.drug, Southern blot

Abstract

Introduction Because blaCTX-M is responsible for resistance of bacteria to the third generation cephalosporins, location of blaCTX-M could be a good indicator for classifying bacterial isolates harboring blaCTX-M in molecular epidemiology. However, determination of blaCTX-M location has been difficult when multiple copies of ISEcp1 were found on bacterial genome. We aimed to establish a high-throughput analytical method for upstream genetic structures (UGS) of ISEcp1 to facilitate determination of blaCTX-M location. Methods Extracted DNA samples obtained from 168 Escherichia coli isolates possessing blaCTX-M were digested by restriction enzyme, HaeIII, and the digested DNA fragments were ligated with homemade barcode adaptors. Then, DNA fragments containing UGS of ISEcp1 were amplified and subjected to the Nanopore sequencer. Results Nucleotide sequences and locations of 168 UGSs obtained from the examined E. coli isolates were determined. Among the 168 determined UGSs, 150 (89.3%) UGS were confirmed on plasmid and classified into eight types. Interestingly, coding sequence of ISEcp1 transposase gene in seven of the eight types were disrupted by IS26 insertion. The remaining 18 (10.7%) UGSs were observed in identical chromosomal region. The obtained nucleotide sequences the locations of UGSs were confirmed by conventional capillary sequencer and Southern blotting, respectively, and any discrepant result was not observed with these confirmation procedures. Conclusions Our results indicated that the established method was efficient for simultaneously determining at least 100 different UGS, and suggested that the determined UGSs of ISEcp1-blaCTX-M transposition unit was useful for classification of bacterial isolates harboring blaCTX-M.

Published

2021

2. A high-throughput sequencing determination method for upstream genetic structure (UGS) of ISEcp1-bla

Author

Nobuyoshi, Yagi, Kouta, Hamamoto, Kim Ngan, Thi Bui, Shuhei, Ueda, Saki, Tawata, Danh Tuyen, Le, Mai Huong, Thi Bui, and Itaru, Hirai

Subjects

Escherichia coli, High-Throughput Nucleotide Sequencing, Humans, Escherichia coli Infections, beta-Lactamases, Anti-Bacterial Agents, Plasmids

Abstract

Because blaExtracted DNA samples obtained from 168 Escherichia coli isolates possessing blaNucleotide sequences and locations of 168 UGSs obtained from the examined E. coli isolates were determined. Among the 168 determined UGSs, 150 (89.3%) UGS were confirmed on plasmid and classified into eight types. Interestingly, coding sequence of ISEcp1 transposase gene in seven of the eight types were disrupted by IS26 insertion. The remaining 18 (10.7%) UGSs were observed in identical chromosomal region. The obtained nucleotide sequences the locations of UGSs were confirmed by conventional capillary sequencer and Southern blotting, respectively, and any discrepant result was not observed with these confirmation procedures.Our results indicated that the established method was efficient for simultaneously determining at least 100 different UGS, and suggested that the determined UGSs of ISEcp1-bla

Published

2021