Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy

Spealman Pieter; Burrell Jaden; Gresham David

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Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy

机译：反相复制DNA序列通过测序纳米孔增加易位率，导致基础呼叫精度降低

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Inverted duplicated DNA sequences are a common feature of structural variants (SVs) and copy number variants (CNVs). Analysis of CNVs containing inverted duplicated DNA sequences using nanopore sequencing identified recurrent aberrant behavior characterized by low confidence, incorrect and missed base calls. Inverted duplicate DNA sequences in both yeast and human samples were observed to have systematic elevation in the electrical current detected at the nanopore, increased translocation rates and decreased sampling rates. The coincidence of inverted duplicated DNA sequences with dramatically reduced sequencing accuracy and an increased translocation rate suggests that secondary DNA structures may interfere with the dynamics of transit of the DNA through the nanopore.

机译：倒置的重复DNA序列是结构变体（SVS）和拷贝数变体（CNV）的常见特征。使用纳米孔测序的含有倒置重复DNA序列的CNV分析鉴定了经常性的异常行为，其特征在于低置信度，不正确和错过的基础呼叫。观察到酵母和人样品中的倒数重复DNA序列在纳米孔中检测到的电流，增加的易位率和降低的采样率下具有系统高度。倒置重复的DNA序列具有显着降低的测序精度和增加的易位率的重合表明，次级DNA结构可能会干扰DNA通过纳米孔的转运的动态。

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《Nucleic Acids Research》 |2020年第9期|共6页
作者
Spealman Pieter; Burrell Jaden; Gresham David;
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作者单位

NYU Ctr Genom &

Syst Biol Dept Biol New York NY 10003 USA;

NYU Ctr Genom &

Syst Biol Dept Biol New York NY 10003 USA;

NYU Ctr Genom &

Syst Biol Dept Biol New York NY 10003 USA;

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正文语种 eng
中图分类生物化学;
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1. Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy [J] . Spealman Pieter, Burrell Jaden, Gresham David Nucleic Acids Research . 2020,第9期

机译：反相复制DNA序列通过测序纳米孔增加易位率，导致基础呼叫精度降低
2. Degenerate adaptor sequences for detecting PCR duplicates in reduced representation sequencing data improve genotype calling accuracy [J] . Tin M. M. Y., Rheindt F. E., Cros E., Molecular ecology resources . 2015,第2期

机译：简并的衔接子序列可用于减少代表性的测序数据中检测PCR重复片段，从而提高了基因型调用的准确性
3. Manganese citrate improves base-calling accuracy in DNA sequencing reactions using rhodamine-based fluorescent dye-terminators. [J] . Korch C, Drabkin H Nucleic Acids Research . 1999,第5期

机译：柠檬酸锰使用基于罗丹明的荧光染料终止剂可提高DNA测序反应中碱基检出的准确性。
4. Base calling error rates in next-generation DNA sequencing [C] . Shamaiah Manohar, Vikalo Haris 2012 IEEE Statistical Signal Processing Workshop. . 2012

机译：下一代DNA测序中的碱基检出错误率
5. Molecular modelling of DNA translocation in bio-functionalized nanopores with applications in gene sequencing. [D] . Ramachandran, Abhijit. 2009

机译：生物功能化纳米孔中DNA易位的分子模型及其在基因测序中的应用。
6. Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy [O] . Pieter Spealman, Jaden Burrell, David Gresham 2020

机译：反向重复DNA序列通过对纳米孔测序提高了易位率导致碱基检出准确度降低
7. Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy [O] . Pieter Spealman, Jaden Burrell, David Gresham 2020

机译：反相复制DNA序列通过测序纳米孔增加易位率，导致基础呼叫精度降低

Inverted duplicate DNA sequences increase translocation rates through sequencing nanopores resulting in reduced base calling accuracy

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