| El-Saber Batiha G, Hussein D E, Algammal A M, et al. Application of natural antimicrobials in food preservation: Recent views [J]. Food Control, 2021, 126: 108066 |
| Luu Q H, Nguyen T L A, Pham T N, et al. Antimicrobial use in household, semi-industrialized, and industrialized pig and poultry farms in Viet Nam [J]. Preventive Veterinary Medicine, 2021, 189: 105292 |
| Nitzan O, Suponitzky U, Kennes Y, et al. Is chloramphenicol making a comeback? [J]. The Israel Medical Association Journal, 2010, 12(6): 371-374 |
| Bollenbach T. Antimicrobial interactions: Mechanisms and implications for drug discovery and resistance evolution [J]. Current Opinion in Microbiology, 2015, 27: 1-9 |
| Böttger E C, Crich D. Aminoglycosides: Time for the resurrection of a neglected class of antibacterials? [J]. ACS Infectious Diseases, 2020, 6(2): 168-172 |
| Zembower T R, Noskin G A, Postelnick M J, et al. The utility of aminoglycosides in an era of emerging drug resistance [J]. International Journal of Antimicrobial Agents, 1998, 10(2): 95-105 |
| 许桓, 唐春雷, 范为正. 氨基糖苷类抗生素的研究进展[J]. 中国新药杂志, 2019, 28(15): 1828-1835 Xu H, Tang C L, Fan W Z. Research progress in aminoglycoside antibiotics [J]. Chinese Journal of New Drugs, 2019, 28(15): 1828-1835 (in Chinese) |
| 李秀银, 王月兵, 李明川. 抗生素的分类及治疗原则[J]. 临床合理用药杂志, 2012, 5(28): 12 |
| 曾庆军. 抗生素在生态环境中的污染转归以及应对措施[J]. 湖南畜牧兽医, 2017(5): 49-52 |
| Giamarellou H, Zissis N P, Tagari G, et al. In vitro synergistic activities of aminoglycosides and new beta-lactams against multiresistant Pseudomonas aeruginosa [J]. Antimicrobial Agents and Chemotherapy, 1984, 25(4): 534-536 |
| 崔洁, 李志光. 甲氧苄啶与氨基糖苷类抗生素联用的抗生素后效应[J]. 中国药房, 2000, 11(1): 14-15 Cui J, Li Z G. Post-antibiotic effect of trimethoprim in combination with three aminoglycosides [J]. China Pharmacy, 2000, 11(1): 14-15 (in Chinese) |
| Maeder V, Escher B I, Scheringer M, et al. Toxic ratio as an indicator of the intrinsic toxicity in the assessment of persistent, bioaccumulative, and toxic chemicals [J]. Environmental Science & Technology, 2004, 38(13): 3659-3666 |
| Tian D Y, Lin Z F, Yu J Q, et al. Influence factors of multicomponent mixtures containing reactive chemicals and their joint effects [J]. Chemosphere, 2012, 88(8): 994-1000 |
| Liu Y, Zhang J, Gao B Y, et al. Combined effects of two antibiotic contaminants on Microcystis aeruginosa [J]. Journal of Hazardous Materials, 2014, 279: 148-155 |
| Broderius S J, Kahl M D, Hoglund M D. Use of joint toxic response to define the primary mode of toxic action for diverse industrial organic chemicals [J]. Environmental Toxicology and Chemistry, 1995, 14(9): 1591-1605 |
| Ban Y H, Song M C, Park J W, et al. Minor components of aminoglycosides: Recent advances in their biosynthesis and therapeutic potential [J]. Natural Product Reports, 2020, 37(3): 301-311 |
| Vanhoof R, Sonck P, Hannecart-Pokorni E. The role of lipopolysaccharide anionic binding sites in aminoglycoside uptake in Stenotrophomonas (Xanthomonas) maltophilia [J]. The Journal of Antimicrobial Chemotherapy, 1995, 35(1): 167-171 |
| Hancock R E. Aminoglycoside uptake and mode of action: With special reference to streptomycin and gentamicin. Ⅰ. Antagonists and mutants [J]. The Journal of Antimicrobial Chemotherapy, 1981, 8(4): 249-276 |
| 刘海燕, 殷瑜. 氨基糖苷类抗生素作用机制研究进展[J]. 中国抗生素杂志, 2019, 44(11): 1283-1287 Liu H Y, Yin Y. Advances in research on the mechanism of aminoglycoside antibiotics [J]. Chinese Journal of Antibiotics, 2019, 44(11): 1283-1287 (in Chinese) |
| Walsh C. Molecular mechanisms that confer antibacterial drug resistance [J]. Nature, 2000, 406(6797): 775-781 |
| Yocum R R, Waxman D J, Rasmussen J R, et al. Mechanism of penicillin action: Penicillin and substrate bind covalently to the same active site serine in two bacterial D-alanine carboxypeptidases [J]. Proceedings of the National Academy of Sciences of the United States of America, 1979, 76(6): 2730-2734 |
| 董玉瑛, 王壮, 马静, 等. DDBAC与取代芳烃对发光菌联合毒性作用[J]. 化工学报, 2008, 59(9): 2351-2355 Dong Y Y, Wang Z, Ma J, et al. Joint toxicity of DDBAC and substituted aromatic compounds to Photobacterium phosphoreum [J]. Journal of Chemical Industry and Engineering (China), 2008, 59(9): 2351-2355 (in Chinese) |
| Tacic A, Nikolic V, Nikolic L, et al. Antimicrobial sulfonamide drugs [J]. Advanced Technologies, 2017, 6(1): 58-71 |
| 刘玉勇, 高琴文, 朱泉, 等. 反应性异噻唑啉酮类抗菌整理剂的制备及应用[J]. 纺织科技进展, 2008(6): 17-19 Liu Y Y, Gao Q W, Zhu Q, et al. Synthesis and application of reactive isothiazolone antibacterial agent [J]. Progress in Textile Science & Technology, 2008 (6): 17-19 (in Chinese) |
| Manefield M, Rasmussen T B, Henzter M, et al. Halogenated furanones inhibit quorum sensing through accelerated LuxR turnover [J]. Microbiology, 2002, 148(Pt 4): 1119-1127 |
| Kadota J, Sakito O, Kohno S, et al. A mechanism of erythromycin treatment in patients with diffuse panbronchiolitis [J]. The American Review of Respiratory Disease, 1993, 147(1): 153-159 |
| 吕浩, 张也. 四环素类抗生素概述[J]. 中西医结合心血管病电子杂志, 2017, 5(34): 15 |
| Nikaido H. Outer membrane barrier as a mechanism of antimicrobial resistance [J]. Antimicrobial Agents and Chemotherapy, 1989, 33(11): 1831-1836 |
| Delis G A,Siarkou V I, Vingopoulou E I, et al. Pharmacodynamic interactions of amikacin with selected β-lactams and fluoroquinolones against canine Escherichia coli isolates [J]. Research in Veterinary Science, 2018, 117: 187-195 |
| Nøhr-Meldgaard K, Ovsepian A, Ingmer H, et al. Resveratrol enhances the efficacy of aminoglycosides against Staphylococcus aureus [J]. International Journal of Antimicrobial Agents, 2018, 52(3): 390-396 |
| Mitchell G, Lafrance M, Boulanger S, et al. Tomatidine acts in synergy with aminoglycoside antibiotics against multiresistant Staphylococcus aureus and prevents virulence gene expression [J]. The Journal of Antimicrobial Chemotherapy, 2012, 67(3): 559-568 |