厌氧诱导的新型类核蛋白大肠杆菌:基因组DNA压缩中的结构作用

J. Teramoto, Kayoko Yamada, N. Kobayashi, A. Kori, S. Yoshimura, K. Takeyasu, A. Ishihama
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摘要

使用新开发的Genomic SELEX,对大肠杆菌的非特征转录因子YgiP识别的dna结合序列进行了系统搜索。通过selex - close程序,从大肠杆菌基因组的126个位点中共分离出333个序列,而通过SELEX-chip程序进行全基因组分析后,已鉴定出超过703个ygip结合位点。凝胶迁移迁移实验表明,每个SELEX DNA片段上存在多个YgiP结合位点,而DNA ase- i足迹实验表明,YgiP对短特异性序列有保护作用,这表明YgiP是一种具有广泛DNA结合特异性的类核蛋白。原子力显微镜(AFM)观察表明,在低浓度下,YgiP以非特异性的方式结合到各个位点,而在高浓度下,YgiP覆盖了整个DNA表面。在好氧条件下细胞生长的稳定状态下,YgiP的细胞内水平很低,但在缺氧或厌氧培养条件下,YgiP的细胞内水平增加了100多倍,达到了与HU和IHF一样高的水平。缺乏ygiP的大肠杆菌突变体在厌氧条件下表现出异常生长。综上所述,我们认为YgiP是一种新的无氧条件下的大肠杆菌类核蛋白,因此建议将YgiP重新命名为Dan(厌氧条件下dna结合蛋白)。
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Anaerobiosis-induced novel nucleoid protein of Escherichia coli: Architectural role in genome DNA compaction
A systematic search has been performed for DNA-binding sequences recognized by YgiP, an uncharacterized transcription factor of Escherichia coli, using the newly developed Genomic SELEX. By SELEX-clos procedure, a total of 333 sequences have been isolated from a total of 126 loci of the E. coli genome while more than 703 YgiP-binding loci have been identified after the genome-wide profiling by SELEX-chip procedure. Gel mobility shift assay indicated the presence of multiple YgiP-binding sites along each SELEX DNA fragment while DNase-I foot-printing assay indicated protection of short-specific sequences by YgiP, together suggesting YgiP as a nucleoid protein with broad specificity of DNA binding. Atomic force microscope (AFM) observation indicated that at low concentrations, YgiP binds to various sites in non-specific manner, but at high concentrations, YgiP covers the entire DNA surface. The intracellular level of YgiP was found to be very low in steady-state of cell growth under aerobic conditions, but increased more than 100-fold to the level as high as those of HU and IHF under hypoxic or anaerobic culture conditions. An E. coli mutant lacking ygiP showed abnormal growth under anaerobic conditions. Taken together we conclude that YgiP is a novel nucleoid protein of E. coli under the anaerobic conditions, and thus propose to rename YgiP to Dan (DNA-binding protein under anaerobic conditions).
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