为元基因组测序富集宿主相关细菌的定向方法

A. Dungan, Kshitij Tandon, Vanta J Jameson, Cecilie Ravn Gotze, L. Blackall, Madeleine J. H. van Oppen
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引用次数: 0

摘要

多细胞真核生物是栖息在其组织上或组织内的细菌群落的宿主。通常情况下,系统中的真核生物成员在元基因组测序读数中所占比例很高,因此要达到足够的测序深度以评估细菌生态学具有挑战性。石珊瑚就是这样一个复杂的群落;然而,迄今为止还没有成功地将细菌与真核(主要是珊瑚和藻类共生体)细胞分离开来。利用杂交链反应荧光原位杂交和荧光激活细胞分选(HCR-FISH + FACS)相结合的方法,我们从五种基因型的珊瑚 Acropora loripes 中分选了两个细菌群,分别针对 1) 内生单胞菌属(Endozoicomonas spp)和 2) 所有其他细菌。NovaSeq 测序结果显示,每个样本有 67-91 M 个读数,其中 55-90% 被鉴定为细菌。大多数读数在分类学上被归入主要的珊瑚相关科--内生单胞菌科(Endozoicomonadaceae),此外还有大量的弧菌科(Vibrionaceae)。内生单胞菌科在 "内生单胞菌 "种群中的数量比其他科多 5 倍,这突出表明了双标记方法的成功。这种方法有效地富集了珊瑚样本中的细菌,而来自宿主和藻类共生体的污染小于 1%。这种方法的应用将使研究人员能够破译珊瑚相关细菌的功能潜力。这种方法也可适用于其他与宿主相关的群落。
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A targeted approach to enrich host-associated bacteria for metagenomic sequencing
Multicellular eukaryotic organisms are hosts to communities of bacteria that reside on or inside their tissues. Often the eukaryotic members of the system contribute to high proportions of metagenomic sequencing reads, making it challenging to achieve sufficient sequencing depth to evaluate bacterial ecology. Stony corals are one such complex community; however, separation of bacterial from eukaryotic (primarily coral and algal symbiont) cells has so far not been successful. Using a combination of hybridization chain reaction fluorescence in situ hybridization and fluorescence activated cell sorting (HCR-FISH + FACS), we sorted two populations of bacteria from five genotypes of the coral Acropora loripes, targeting 1) Endozoicomonas spp, and 2) all other bacteria. NovaSeq sequencing resulted in 67-91 M reads per sample, 55–90% of which were identified as bacterial. Most reads were taxonomically assigned to the key coral-associated family, Endozoicomonadaceae, with Vibrionaceae also abundant. Endozoicomonadaceae were 5x more abundant in the ‘Endozoicomonas’ population, highlighting the success of the dual-labelling approach. This method effectively enriched coral samples for bacteria with <1% contamination from host and algal symbionts. The application of this method will allow researchers to decipher the functional potential of coral-associated bacteria. This method can also be adapted to accommodate other host-associated communities.
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来源期刊
CiteScore
3.30
自引率
0.00%
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0
审稿时长
15 weeks
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