优化从猪粪便和液体饲料中同时提取细菌和真菌DNA的敲头程序,用于16S和ITS2 rDNA扩增子测序

J.T. Cullen , P.G. Lawlor , P. Cormican , F. Crispie , G.E. Gardiner
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引用次数: 2

摘要

高效的细胞裂解对于从革兰氏阳性菌和丝状真菌等难以裂解的微生物中提取DNA至关重要。在DNA提取方案中,通常包括一个打珠(BB)步骤,以改善细胞裂解。然而,对于复杂微生物生态系统中存在的微生物群落的完全裂解所必需的BB持续时间,但仍将保持易于裂解的微生物释放的DNA的完整性,目前尚无共识。另一个考虑因素是,大多数方案都是针对给定样品基质中的特定目标微生物群(通常是细菌或真菌)量身定制的。在本研究中,我们研究了QIAamp®快速DNA粪便迷你试剂盒在DNA提取过程中5个BB持续时间(0,3,10,15和20分钟)对三次提取的单个猪粪便和液体饲料样品的细菌和真菌群落的影响,目的是确定一种合适的“全面”方法。两种样品都进行了三次重复的BB持续时间,然后进行了16S(细菌)和ITS2(真菌)rDNA扩增子测序。根据提取的总DNA数量、所得微生物群落的α -和β -多样性分析以及细菌和真菌分类群的差异丰度,评估不同BB持续时间的性能。我们的研究结果表明,20分钟的BB最适合最大限度地裂解猪粪便和液体饲料中难以裂解的细菌和真菌,同时最大限度地减少对容易裂解的微生物的负面影响。两种样品的总DNA产率均随BB时间的延长而增加;然而,在BB作用20分钟后,粪便产量下降。尽管如此,DESeq2分析表明,此时优势类群的差异丰度变化有限,这得到了Shannon多样性结果的支持。为了获得革兰氏阳性菌(特别是液体饲料中的革兰氏阳性菌)和两种样品类型中存在的丝状真菌的代表性剖面,似乎有必要最大化BB持续时间。然而,考虑到样本量小,以及依赖于差异丰度而不是绝对丰度来验证分类群的增减,需要更大规模的研究来验证本研究的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimisation of a bead-beating procedure for simultaneous extraction of bacterial and fungal DNA from pig faeces and liquid feed for 16S and ITS2 rDNA amplicon sequencing

Efficient cell lysis is critical for the extraction of DNA from difficult-to-lyse microorganisms such as Gram-positive bacteria and filamentous fungi. A bead-beating (BB) step is usually included in DNA extraction protocols to improve cell lysis. However, there is no consensus on the duration of BB that is necessary for complete lysis of the microbial communities present in complex microbial ecosystems, but which will still maintain the integrity of DNA released from easy-to-lyse microbes. Another consideration is that most protocols are tailored to one particular target group of microbes, typically either bacteria or fungi, in a given sample matrix. In this study, we investigated the impact of five BB durations (0, 3, 10, 15 and 20 min) during DNA extraction with the QIAamp® Fast DNA Stool Mini Kit, on the bacterial and fungal communities of single pig faecal and liquid feed samples, extracted in triplicate, with the objective of determining a suitable ‘catch-all’ method. Both sample types were subjected to the BB durations in triplicate, followed by 16S (bacterial) and ITS2 (fungal) rDNA amplicon sequencing. The performance of the different BB durations was assessed based on the quantity of total DNA extracted, alpha- and beta-diversity analyses of the resultant microbial communities and differential abundance of bacterial and fungal taxa. Our results suggest that 20 min of BB is most appropriate for maximising the lysis of difficult-to-lyse bacteria and fungi in both pig faeces and liquid feed, while minimising the negative impact on easier-to-lyse microbes. Total DNA yield increased with BB duration for both sample types; however, the yield from faeces decreased after 20 min of BB. Despite this, DESeq2 analysis indicated that changes in the differential abundances of the dominant taxa at this point were limited, which was supported by the Shannon diversity results. Maximising the BB duration appeared to be necessary in order to obtain a representative profile of the Gram-positive bacteria, particularly in liquid feed, and of the filamentous fungi present in both sample types. However, considering the small sample size, along with the reliance on differential as opposed to absolute abundances to validate increases or decreases in taxa, a larger-scale study is necessary to verify the findings of the present study.

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