平衡读长与测序深度：优化针对单子叶植物（重点为百合目）的纳米孔长读长测序

Balancing read length and sequencing depth: Optimizing Nanopore long-read sequencing for monocots with an emphasis on the Liliales.

作者信息

De La Cerda Gisel Y, Landis Jacob B, Eifler Evan, Hernandez Adriana I, Li Fay-Wei, Zhang Jing, Tribble Carrie M, Karimi Nisa, Chan Patricia, Givnish Thomas, Strickler Susan R, Specht Chelsea D

机构信息

School of Integrative Plant Science, Section of Plant Biology and the L. H. Bailey Hortorium Cornell University Ithaca New York 14853 USA.

BTI Computational Biology Center Boyce Thompson Institute Ithaca New York 14853 USA.

出版信息

Appl Plant Sci. 2023 Jun 6;11(3):e11524. doi: 10.1002/aps3.11524. eCollection 2023 May-Jun.

DOI:10.1002/aps3.11524

PMID:37342170

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10278932/

Abstract

PREMISE

We present approaches used to generate long-read Nanopore sequencing reads for the Liliales and demonstrate how modifications to standard protocols directly impact read length and total output. The goal is to help those interested in generating long-read sequencing data determine which steps may be necessary for optimizing output and results.

METHODS

Four species of (Liliaceae) were sequenced. Modifications made to sodium dodecyl sulfate (SDS) extractions and cleanup protocols included grinding with a mortar and pestle, using cut or wide-bore tips, chloroform cleaning, bead cleaning, eliminating short fragments, and using highly purified DNA.

RESULTS

Steps taken to maximize read length can decrease overall output. Notably, the number of pores in a flow cell is correlated with the overall output, yet we did not see an association between the pore number and the read length or the number of reads produced.

DISCUSSION

Many factors contribute to the overall success of a Nanopore sequencing run. We showed the direct impact that several modifications to the DNA extraction and cleaning steps have on the total sequencing output, read size, and number of reads generated. We show a tradeoff between read length and the number of reads and, to a lesser extent, the total sequencing output, all of which are important factors for successful de novo genome assembly.

摘要

前提

我们展示了用于为百合目植物生成 Nanopore 长读长测序读数的方法，并演示了对标准方案的修改如何直接影响读长和总产出。目标是帮助那些对生成 Nanopore 长读长测序数据感兴趣的人确定哪些步骤对于优化产出和结果可能是必要的。

方法

对四种百合科植物进行了测序。对十二烷基硫酸钠（SDS）提取和纯化方案所做的修改包括用研钵和研杵研磨、使用切口或宽口径吸头、氯仿清洗、磁珠清洗、去除短片段以及使用高纯度 DNA。

结果

为使读长最大化而采取的步骤可能会降低总产出。值得注意的是，流动槽中的孔数与总产出相关，但我们并未发现孔数与读长或产生的读数数量之间存在关联。

讨论

许多因素会影响 Nanopore 测序运行的总体成功。我们展示了对 DNA 提取和清洗步骤的几种修改对总测序产出、读长和产生的读数数量的直接影响。我们展示了读长与读数数量之间的权衡，并且在较小程度上还展示了与总测序产出之间的权衡，所有这些都是成功进行从头基因组组装的重要因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aaa3/10278932/8f05b1b9f2e7/APS3-11-e11524-g001.jpg

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平衡读长与测序深度：优化针对单子叶植物（重点为百合目）的纳米孔长读长测序

Balancing read length and sequencing depth: Optimizing Nanopore long-read sequencing for monocots with an emphasis on the Liliales.

作者信息

机构信息

出版信息

PREMISE

METHODS

RESULTS

DISCUSSION

前提

方法

结果

讨论

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