Hidden from plain sight: Novel Simkaniaceae and Rhabdochlamydiaceae diversity emerging from screening genomic and metagenomic data

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Helen R. Davison, Gregory D.D. Hurst
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Abstract

Chlamydiota are an ancient and hyperdiverse phylum of obligate intracellular bacteria. The best characterized representatives are pathogens or parasites of mammals, but it is thought that their most common hosts are microeukaryotes like Amoebozoa. The diversity in taxonomy, evolution, and function of non-pathogenic Chlamydiota are slowly being described. Here we use data mining techniques and genomic analysis to extend our current knowledge of Chlamydiota diversity and its hosts, in particular the Order Parachlamydiales. We extract one Rhabdochlamydiaceae and three Simkaniaceae Metagenome-Assembled Genomes (MAGs) from NCBI Short Read Archive deposits of ciliate and algal genome sequencing projects. We then use these to identify a further 14 and 8 MAGs respectively amongst existing, unidentified environmental assemblies. From these data we identify two novel clades with host associated data, for which we propose the names “Sacchlamyda saccharinae” (Family Rhabdochlamydiaceae) and “Amphrikana amoebophyrae” (Family Simkaniaceae), as well as a third new clade of environmental MAGs “Acheromyda pituitae” (Family Rhabdochlamydiaceae). The extent of uncharacterized diversity within the Rhabdochlamydiaceae and Simkaniaceae is indicated by 16 of the 22 MAGs being evolutionarily distant from currently characterised genera. Within our limited data, there was great predicted diversity in Parachlamydiales metabolism and evolution, including the potential for metabolic and defensive symbioses as well as pathogenicity. These data provide an imperative to link genomic diversity in metagenomics data to their associated eukaryotic host, and to develop onward understanding of the functional significance of symbiosis with this hyperdiverse clade.

Abstract Image

隐藏在众目睽睽之下:从基因组和宏基因组数据筛选中发现的新的辛科和Rhabdochlydiaceae多样性。
衣原体是一个古老而高度多样化的专性细胞内细菌门。最具特征的代表是哺乳动物的病原体或寄生虫,但人们认为它们最常见的宿主是像阿米巴虫这样的微孢子虫。非致病性衣原体的分类、进化和功能的多样性正在慢慢被描述。在这里,我们使用数据挖掘技术和基因组分析来扩展我们目前对衣原体多样性及其宿主,特别是副衣原体目的了解。我们从NCBI纤毛虫和藻类基因组测序项目的短读档案中提取了一个Rhabdochlamydiaceae和三个Simkaniaceae元基因组组装基因组(MAG)。然后,我们使用这些来分别在现有的、未识别的环境组件中识别另外14个和8个MAG。根据这些数据,我们确定了两个具有宿主相关数据的新分支,我们为其命名为“Sacclamyda saccharinae”(Rhabdochlamydiaceae科)和“Amphrikana amoebophyrae”(Simkaniaceae族),以及环境MAG的第三个新分支“Acheromyda pituitae”(Rhabodochlamydeiaceae家族)。22个MAG中有16个在进化上与目前具有特征的属相距甚远,这表明了Rhabdochlamydiaceae和Simkaniaceae中不具特征的多样性的程度。在我们有限的数据范围内,预测副衣原体的代谢和进化具有很大的多样性,包括代谢和防御共生体的潜力以及致病性。这些数据迫切需要将宏基因组学数据中的基因组多样性与其相关的真核宿主联系起来,并进一步理解与这种超多样化分支共生的功能意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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