Hu Honghua, Lan Ruiting, Reeves Peter R
School of Molecular and Microbial Biosciences, The University of Sydney, New South Wales, Australia.
Genetics. 2006 Feb;172(2):743-50. doi: 10.1534/genetics.105.046466. Epub 2005 Oct 3.
Serovar Typhimurium of Salmonella enterica is a model organism for studies of pathogenesis that exhibits phage-type variation and variation in host range and virulence, but in a recent study showed no sequence variation in four genes, indicating the clonal nature of this serovar. We determined the relationships of 46 Typhimurium isolates of nine phage types using mutational changes detected either by matching AFLP (amplified fragment length polymorphism) fragments to computer-modeled LT2 AFLP fragments or by sequencing intergenic regions. Fifty-one polymorphic sites were detected, which gave a single phylogenetic tree. Comparison with genome sequences of five other serovars, Typhi, Paratyphi A, Gallinarum, Enteritidis, and Pullorum, enabled determination of the root of the tree. Only two parallel events were observed, giving high confidence in the tree branching order. The mutation-based tree provided a high level of consistency and a clear lineage for the Typhimurium isolates studied. This enabled us to show that for seven of the nine phage types used, the isolates studied have a single origin, but that two phage types clearly have more than one independent origin. We found that sequencing intergenic regions provides a good strategy for detection of mutational polymorphisms and study of phylogenetic relationships of closely related isolates and would be applicable to many other species.
肠炎沙门氏菌鼠伤寒血清型是用于发病机制研究的模式生物,其表现出噬菌体类型变异、宿主范围和毒力变异,但在最近一项研究中,该血清型的四个基因未显示序列变异,表明其克隆性质。我们通过将扩增片段长度多态性(AFLP)片段与计算机模拟的LT2 AFLP片段匹配或对基因间区域进行测序检测到的突变变化,确定了46株九种噬菌体类型的鼠伤寒菌株之间的关系。检测到51个多态性位点,由此得到一棵单一的系统发育树。与其他五个血清型(伤寒血清型、甲型副伤寒血清型、鸡沙门氏菌血清型、肠炎血清型和鸡白痢血清型)的基因组序列进行比较,确定了该树的根部。仅观察到两个平行事件,这使得对树的分支顺序有高度信心。基于突变的树为所研究的鼠伤寒菌株提供了高度的一致性和清晰的谱系。这使我们能够表明,在所使用的九种噬菌体类型中的七种中,所研究的菌株有单一起源,但有两种噬菌体类型显然有不止一个独立起源。我们发现,对基因间区域进行测序为检测突变多态性和研究密切相关菌株的系统发育关系提供了一个很好的策略,并且适用于许多其他物种。