螺旋藻FtsZ基因在大肠杆菌中的表达与定位

Juan Wu, Lu-Yang Zou, Qun Zeng, Hong Xu
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摘要

原核细胞骨架蛋白FtsZ是一种微管同源物,在细胞中组装成紧密的圆形结构,在细胞质分裂中起重要作用。为了探究FtsZ在platspirina plasensis形态发生中的作用,我们从platensis中克隆了FtsZ基因,并构建了其GFP表达质粒pGFP-FtsZ的融合标签。将重组表达载体转化为大肠杆菌BL21。Western blot分析表明,GFP-FtsZ融合基因在转化中成功表达。表达GFP-FtsZ蛋白的转化菌由正常的短棒状变为长丝状。成丝细胞的长度与FtsZ在细胞中的表达量成正比。荧光显微镜观察到GFP-FtsZ融合蛋白在转化菌中呈规则点分布。结果表明,FtsZ是一种高度保守的功能蛋白。platensis的FtsZ组装了完整的细胞质分裂装置,并在大肠杆菌的未来分裂位点形成z环结构,调节细胞分裂,过表达FtsZ阻断正常细胞周期,导致细胞成丝。
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Expression and Localization of FtsZ from Spirulina platensis in Escherichia coli
Prokaryotic cytoskeletal protein FtsZ,a microtubule homolog,assembles into a compact circular structure at the mid-cell and plays an important role in cytokinesis.To explore the function of FtsZ in Spirulina platensis morphogenesis,we cloned the ftsZ gene from S.platensis and constructed its fusion tag of GFP expression plasmid pGFP-FtsZ.The recombined expression vector was transformed to Escherichia coli BL21.Western blot analysis showed that the GFP-FtsZ fusion gene was successfully expressed in the transformant.The transformed bacteria that expressed the GFP-FtsZ protein changed from normal short-rod shapes and formed long filaments.The length of the filamentation cells was proportional to the expression amount of FtsZ in cells.Regular-dot distribution of the GFP-FtsZ fusion protein in transformed bacteria was observed by fluorescent light microscopy.The data demonstrated that FtsZ was a highly conserved functional protein.The FtsZ of S.platensis assembled the complete cytokinesis apparatus and formed a Z-ring structure at the future division site to regulate cell division in E.coli.The overexpression of FtsZ blocked the normal cell cycle and led to cell filamentation.
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