# | Document title | Authors | Year | Source | Cited by |
1 | Characterization of Salmonella Typhimurium DNA gyrase as a target of quinolones | Kongsoi S., Yokoyama K., Suprasert A., Utrarachkij F., Nakajima C., Suthienkul O., Suzuki Y. | 2015 | Drug Testing and Analysis 7(8),pp. 714-720 | 17 |
2 | Characterization of Campylobacter jejuni DNA gyrase as the target of quinolones | Changkwanyeun R., Usui M., Kongsoi S., Yokoyama K., Kim H., Suthienkul O., Suthienkul O., Changkaew K., Nakajima C., Tamura Y., Suzuki Y. | 2015 | Journal of Infection and Chemotherapy 21(8),pp. 604-609 | 14 |
3 | Quinolone Resistance Determinants of Clinical Salmonella Enteritidis in Thailand | Utrarachkij F., Nakajima C., Changkwanyeun R., Siripanichgon K., Kongsoi S., Pornruangwong S., Changkaew K., Tsunoda R., Tamura Y., Suthienkul O., Suthienkul O., Suzuki Y. | 2017 | Microbial Drug Resistance 23(7),pp. 885-894 | 14 |
4 | Impact of mutations in DNA gyrase genes on quinolone resistance in Campylobacter jejuni | Changkwanyeun R., Yamaguchi T., Kongsoi S., Changkaew K., Yokoyama K., Kim H., Suthienkul O., Usui M., Tamura Y., Nakajima C., Suzuki Y. | 2016 | Drug Testing and Analysis 8(10),pp. 1071-1076 | 12 |
5 | Amino acid substitutions in GyrA affect quinolone susceptibility in Salmonella typhimurium | Kongsoi S., Changkwanyeun R., Yokoyama K., Nakajima C., Changkaew K., Suthienkul O., Suthienkul O., Suzuki Y. | 2016 | Drug Testing and Analysis 8(10),pp. 1065-1070 | 10 |
6 | Interaction of the plasmid-encoded quinolone resistance protein QnrB19 with Salmonella Typhimurium DNA gyrase | Pachanon R., Koide K., Kongsoi S., Nakajima C., Kapalamula T.F., Suthienkul O., Suzuki Y. | 2020 | Journal of Infection and Chemotherapy 26(11),pp. 1139-1145 | 10 |
7 | WQ-3810 exerts high inhibitory effect on quinolone-resistant DNA gyrase of Salmonella Typhimurium | Koide K., Kongsoi S., Nakajima C., Suzuki Y. | 2019 | Bioscience, Biotechnology and Biochemistry 83(12),pp. 2249-2256 | 9 |
8 | Amino Acid Substitution Ser83Ile in GyrA of DNA Gyrases Confers High-Level Quinolone Resistance to Nontyphoidal Salmonella without Loss of Supercoiling Activity | Koide K., San L.L., Pachanon R., Park J.H., Ouchi Y., Kongsoi S., Utrarachkij F., Nakajima C., Suzuki Y. | 2021 | Microbial Drug Resistance 27(10),pp. 1397-1404 | 7 |
9 | Prevalence and antimicrobial resistance of Salmonella and Campylobacter species isolated from laying duck flocks in confinement and free-grazing systems | Saengthongpinit C., Kongsoi S., Viriyarampa S., Songserm T. | 2015 | Thai Journal of Veterinary Medicine 45(3),pp. 341-350 | 6 |
10 | Antibacterial Activity of DC-159a Against Salmonella Typhimurium | Koide K., Kongsoi S., Kongsoi S., Ouchi Y., Yamaguchi T., Nakajima C., Suzuki Y. | 2019 | Microbial Drug Resistance 25(1),pp. 14-22 | 5 |
11 | High rate misidentification of biochemically determined Streptococcus isolates from swine clinical specimens | Meekhanon N., Kaewmongkol S., Jirawattanapong P., Kaminsonsakul T., Kongsoi S., Chumsing S., Okura M., Ueno Y., Sekizaki T., Takamatsu D., Takamatsu D. | 2019 | Journal of Veterinary Medical Science 81(4),pp. 567-572 | 4 |
12 | Effectiveness of Fluoroquinolones with Difluoropyridine Derivatives as R1 Groups on the Salmonella DNA Gyrase in the Presence and Absence of Plasmid-Encoded Quinolone Resistance Protein QnrB19 | Pachanon R., Koide K., Kongsoi S., Ajima N., Kapalamula T.F., Nakajima C., Suthienkul O., Suzuki Y. | 2021 | Microbial Drug Resistance 27(10),pp. 1412-1419 | 4 |
13 | Serotypes and antimicrobial resistance profiles of salmonella enterica recovered from clinical swine samples | Kongsoi S., Chumsing S., Satorn D., Noourai P. | 2020 | Veterinary World 13(11),pp. 2312-2318 | 4 |
14 | Exploration of the novel fluoroquinolones with high inhibitory effect against quinolone-resistant DNA gyrase of Salmonella Typhimurium | Toyting J., Miura N., Utrarachkij F., Tanomsridachchai W., Belotindos L.P., Suwanthada P., Kapalamula T.F., Kongsoi S., Koide K., Kim H., Thapa J., Nakajima C., Suzuki Y. | 2023 | Microbiology spectrum 11(6),pp. e0133023 | 4 |
15 | The Impact of Substitutions at Positions 1 and 8 of Fluoroquinolones on the Activity Against Mutant DNA Gyrases of Salmonella Typhimurium | Suwanthada P., Kongsoi S., Miura N., Belotindos L.P., Belotindos L.P., Piantham C., Toyting J., Akapelwa M.L., Pachanon R., Pachanon R., Koide K., Koide K., Kim H., Thapa J., Nakajima C., Suzuki Y. | 2023 | Microbial Drug Resistance
| 3 |
16 | Effect of WQ-3334 on Campylobacter jejuni carrying a DNA gyrase with dominant amino acid substitutions conferring quinolone resistance | Miura-Ajima N., Suwanthada P., Kongsoi S., Kim H., Pachanon R., Koide K., Mori S., Thapa J., Nakajima C., Suzuki Y. | 2024 | Journal of Infection and Chemotherapy
| 1 |
17 | Interplay between Amino Acid Substitution in GyrA and QnrB19: Elevating Fluoroquinolone Resistance in Salmonella Typhimurium | Suwanthada P., Kongsoi S., Jayaweera S., Akapelwa M.L., Thapa J., Nakajima C., Suzuki Y. | 2024 | ACS Infectious Diseases
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