Preferential amplification of repetitive DNA during whole genome sequencing library creation from historic samples

Bastiaan Star, Marianne H. S. Hansen, M. Skage, I. Bradbury, J. A. Godiksen, O. S. Kjesbu, S. Jentoft
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引用次数: 13

Abstract

Abstract Repetitive microsatellite DNA forms a universal component of eukaryote genomes and specific biochemical properties of such repeat regions may influence the outcome of laboratory protocols. The Atlantic cod (Gadus morhua) genome contains an order of magnitude more dinucleotide repeats than the majority of vertebrates, with over eight percent of its genome that can be classified as either AC or AG dinucleotide repeat. We find that the abundance of these repeats can be inflated in ancient DNA (aDNA) whole genome sequencing (WGS) data generated from this species, in particular in samples with a lower fragment length. This inflation is suppressed by a reduced number of amplification cycles and by the inclusion of manufactured dinucleotide repeat oligonucleotides during amplification. These data indicate that a biased amplification reaction leads to artificially high levels of AC and AG repeats. This process appears to be particularly efficient in Atlantic cod –likely due to its high genomic content of repeats with relatively simple sequence complexity. While the extend of such bias in other studies is unclear, we nonetheless urge caution when quantifying repeat content in aDNA WGS data, given that amplification bias can be difficult to detect if this process affects more complex repeat structures than dinucleotide repeats.
历史样品全基因组测序文库创建过程中重复DNA的优先扩增
重复微卫星DNA是真核生物基因组的普遍组成部分,这种重复区域的特定生化特性可能会影响实验室方案的结果。大西洋鳕鱼(Gadus morhua)基因组包含的二核苷酸重复序列比大多数脊椎动物多一个数量级,其中超过8%的基因组可归类为AC或AG二核苷酸重复序列。我们发现这些重复序列的丰度可以在从该物种产生的古DNA (aDNA)全基因组测序(WGS)数据中膨胀,特别是在片段长度较低的样本中。这种膨胀被扩增循环次数的减少和扩增过程中合成的二核苷酸重复寡核苷酸的包含所抑制。这些数据表明,偏倚的扩增反应导致人为高水平的AC和AG重复。这一过程似乎在大西洋鳕鱼中特别有效——可能是由于其重复序列的基因组含量高,序列复杂性相对简单。虽然这种偏倚在其他研究中的范围尚不清楚,但我们仍敦促在量化aDNA WGS数据中的重复内容时保持谨慎,因为如果该过程影响比二核苷酸重复更复杂的重复结构,则很难检测到扩增偏倚。
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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