流出
主要促进者超家族
肠沙门氏菌
铜绿假单胞菌
多重耐药
枯草芽孢杆菌
生物
抗生素耐药性
微生物学
大肠杆菌
化学
生物化学
细菌
抗药性
抗生素
突变体
遗传学
基因
作者
Anna Wasaznik,Mariusz Grinholc,Krzysztof Piotr Bielawski
出处
期刊:PubMed
[National Institutes of Health]
日期:2009-04-09
卷期号:63: 123-33
被引量:18
摘要
Active efflux is a common resistance mechanism in a wide range of bacterial pathogens. It is responsible for the transport of such toxic compounds as drugs, toxins, and detergents. Pumps with broad substrate profiles promote the emergence of multidrug-resistant bacterial pathogens that are a particular threat to contemporary medicine, such as Pseudomonas aeruginosa, Escherichia coli, Staphylococcus aureus, and Salmonella enterica sv Typhimurium. One can distinguish five major class of transport systems on the basis of their structure and function: MFS (major facilitator superfamily), SMR (small multidrug-resistance family), MATE (multidrug and toxic compound extrusion family), ABC (ATP binding cassette superfamily), and RND (resistance nodulation cell division family). Substrate transport may include hydrogen proton exchange or energy generated via ATP hydrolysis. The transport is effectively regulated by local regulatory proteins.such as BmrR from Bacillus subtilis, or by the global bacterial regulatory system. Investigations into efflux pumps and their substrate profiles and regulatory mechanisms have led to the discovery of new therapeutics and pump inhibitors that could potentially become alternative and effective antimicrobial drugs. Additionally, some alternative therapies such as photodynamic inactivation could be more effective if the synergistic action of efflux pump inhibitors are used.Thus research into efflux transport systems seems to be an important element of contemporary medicine .
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