The distributed genome hypothesis (DGH) states that each strain within a bacterial species receives a unique distribution of genes from a population-based supragenome that is many times larger than the genome of any given strain. The observations that natural infecting populations are often polyclonal and that most chronic bacterial pathogens have highly developed mechanisms for horizontal gene transfer suggested the DGH and provided the means and the mechanisms to explain how chronic infections persist in the face of a mammalian host's adaptive defense mechanisms. Having previously established the validity of the DGH for obligate pathogens, we wished to evaluate its applicability to an opportunistic bacterial pathogen. This was accomplished by construction and analysis of a highly redundant pooled genomic library containing approximately 216,000 functional clones that was constructed from 12 low-passage clinical isolates of Pseudomonas aeruginosa, 6 otorrheic isolates and 6 from other body sites. Sequence analysis of 3,214 randomly picked clones (mean insert size, approximately 1.4 kb) from this library demonstrated that 348 (10.8%) of the clones were unique with respect to all genomic sequences of the P. aeruginosa prototype strain, PAO1. Hypothetical translations of the open reading frames within these unique sequences demonstrated protein homologies to a number of bacterial virulence factors and other proteins not previously identified in P. aeruginosa. PCR and reverse transcription-PCR-based assays were performed to analyze the distribution and expression patterns of a 70-open reading frame subset of these sequences among 11 of the clinical strains. These sequences were unevenly distributed among the clinical isolates, with nearly half (34/70) of the novel sequences being present in only one or two of the individual strains. Expression profiling revealed that a vast majority of these sequences are expressed, strongly suggesting they encode functional proteins.

译文

分布式基因组假说 (DGH) 指出,细菌物种中的每个菌株都从基于群体的上基因组接收到独特的基因分布,该基因分布比任何给定菌株的基因组大很多倍。观察到自然感染种群通常是多克隆的,并且大多数慢性细菌病原体具有高度发达的水平基因转移机制,这表明DGH并提供了手段和机制来解释慢性感染如何在哺乳动物宿主的适应性防御机制中持续存在。先前已经确定了DGH对专性病原体的有效性,我们希望评估其对机会性细菌病原体的适用性。这是通过构建和分析包含约216,000个功能克隆的高度冗余的合并基因组文库来实现的,所述基因组文库是从铜绿假单胞菌的12个低传代临床分离株、6个耳鼻喉科分离株和6个来自其他身体位点构建的。对从该文库中随机挑选的3,214个克隆 (平均插入大小,约1.4 kb) 的序列分析表明,对于铜绿假单胞菌原型菌株pao1的所有基因组序列,348 (10.8%) 的克隆是独特的。这些独特序列中开放阅读框的假设翻译证明了蛋白质与许多细菌毒力因子和其他以前在铜绿假单胞菌中未鉴定的蛋白质的同源性。进行了PCR和基于逆转录PCR的检测,以分析11种临床菌株中这些序列的70个开放阅读框子集的分布和表达模式。这些序列在临床分离株中分布不均匀,近一半 (34/70) 新序列仅存在于单个菌株中的一个或两个中。表达谱分析显示,这些序列中的绝大多数都被表达,这强烈表明它们编码功能蛋白。

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