属于主要易化子超家族的氯霉素特异性外排泵FloR的结构与功能研究
Structural and functional study of the phenicol-specific efflux pump FloR belonging to the major facilitator superfamily.
作者信息
Braibant Martine, Chevalier Jacqueline, Chaslus-Dancla Elisabeth, Pagès Jean-Marie, Cloeckaert Axel
机构信息
UR86 Bio-Agresseurs, Santé, Environnement, Institut National de la Recherche Agronomique, Centre de Recherche de Tours, 37380 Nouzilly, France.
出版信息
Antimicrob Agents Chemother. 2005 Jul;49(7):2965-71. doi: 10.1128/AAC.49.7.2965-2971.2005.
Abstract
The florfenicol-chloramphenicol resistance gene floR from Salmonella enterica was previously identified and postulated to belong to the major facilitator (MF) superfamily of drug exporters. Here, we confirmed a computer-predicted transmembrane topological model of FloR, using the phoA gene fusion method, and classified this protein in the DHA12 family (containing 12 transmembrane domains) of MF efflux transporters. We also showed that FloR is a transporter specific for structurally associated phenicol drugs (chloramphenicol, florfenicol, thiamphenicol) which utilizes the proton motive force to energize an active efflux mechanism. By site-directed mutagenesis of specific charged residues belonging to putative transmembrane segments (TMS), two residues essential for active efflux function, D23 in TMS1 and R109 in TMS4, were identified. Of these, the acidic residue D23 seems to participate directly in the affinity pocket involved in phenicol derivative recognition. A third residue, E283 in TMS9, seems to be necessary for correct membrane folding of the transporter.
摘要
先前已鉴定出肠炎沙门氏菌的氟苯尼考 - 氯霉素抗性基因floR,并推测其属于药物外排转运蛋白的主要易化子(MF)超家族。在此,我们使用phoA基因融合方法证实了计算机预测的FloR跨膜拓扑模型,并将该蛋白归类于MF外排转运蛋白的DHA12家族(包含12个跨膜结构域)。我们还表明,FloR是一种针对结构相关的苯尼考类药物(氯霉素、氟苯尼考、甲砜霉素)的转运蛋白,它利用质子动力来驱动主动外排机制。通过对属于假定跨膜区段(TMS)的特定带电残基进行定点诱变,确定了两个对主动外排功能至关重要的残基,即TMS1中的D23和TMS4中的R109。其中,酸性残基D23似乎直接参与了苯尼考衍生物识别所涉及的亲和口袋。第三个残基,即TMS9中的E283,似乎是转运蛋白正确膜折叠所必需的。
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