嗜热栖热菌HB27中的菌毛样蛋白:对自然转化能力的影响及与IV型菌毛生物合成的联系
Pilin-like proteins in the extremely thermophilic bacterium Thermus thermophilus HB27: implication in competence for natural transformation and links to type IV pilus biogenesis.
作者信息
Friedrich Alexandra, Rumszauer Judit, Henne Anke, Averhoff Beate
机构信息
Bereich Genetik und Mikrobiologie, Department Biologie I, Ludwig-Maximilians-Universität München, Maria-Ward-Strasse 1a, D-80638 Munich, Germany.
出版信息
Appl Environ Microbiol. 2003 Jul;69(7):3695-700. doi: 10.1128/AEM.69.7.3695-3700.2003.
Abstract
The extreme thermophile Thermus thermophilus HB27 exhibits high frequencies of natural transformation. Although we recently reported identification of the first competence genes in Thermus, the molecular basis of DNA uptake is unknown. A pilus-like structure is assumed to be involved. Twelve genes encoding prepilin-like proteins were identified in three loci in the genome of T. thermophilus. Mutational analyses, described in this paper, revealed that one locus, which contains four genes that encode prepilin-like proteins (pilA1 to pilA4), is essential for natural transformation. Additionally, comZ, a new competence gene with no similarity to known genes, was identified. Analysis of the piliation phenotype revealed wild-type piliation of a pilA1-pilA3Deltakat mutant and a comZ mutant, whereas a pilA4 mutant was found to be completely devoid of pilus structures. These findings, together with the significant similarity of PilA4 to prepilins, led to the conclusion that the T. thermophilus pilus structures are type IV pili. Furthermore, the loss of the transformation and piliation phenotype in the pilA4 mutant suggests that type IV pili are implicated in natural transformation of T. thermophilus HB27.
摘要
嗜热栖热菌HB27这种极端嗜热菌表现出较高频率的自然转化。尽管我们最近报道了在栖热菌中首次鉴定出了感受态基因,但DNA摄取的分子基础尚不清楚。推测一种菌毛样结构与之有关。在嗜热栖热菌基因组的三个位点中鉴定出了12个编码前菌毛蛋白样蛋白的基因。本文所述的突变分析表明,一个包含四个编码前菌毛蛋白样蛋白基因(pilA1至pilA4)的位点对于自然转化至关重要。此外,还鉴定出了一个与已知基因无相似性的新感受态基因comZ。对菌毛形成表型的分析显示,pilA1-pilA3Deltakat突变体和comZ突变体具有野生型菌毛形成,而pilA4突变体则完全没有菌毛结构。这些发现,连同PilA4与前菌毛蛋白的显著相似性,得出结论:嗜热栖热菌的菌毛结构是IV型菌毛。此外,pilA4突变体中转化和菌毛形成表型的丧失表明IV型菌毛与嗜热栖热菌HB27的自然转化有关。
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