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

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

doi:10.1002/aps3.11524

Applications in Plant Sciences (May 2023)

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

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

Affiliations

Gisel Y. De La Cerda: School of Integrative Plant Science, Section of Plant Biology and the L. H. Bailey Hortorium Cornell University Ithaca New York 14853 USA
Jacob B. Landis: School of Integrative Plant Science, Section of Plant Biology and the L. H. Bailey Hortorium Cornell University Ithaca New York 14853 USA
Evan Eifler: Department of Botany University of Wisconsin–Madison Madison Wisconsin 53706 USA
Adriana I. Hernandez: School of Integrative Plant Science, Section of Plant Biology and the L. H. Bailey Hortorium Cornell University Ithaca New York 14853 USA
Fay‐Wei Li: BTI Computational Biology Center Boyce Thompson Institute Ithaca New York 14853 USA
Jing Zhang: BTI Computational Biology Center Boyce Thompson Institute Ithaca New York 14853 USA
Carrie M. Tribble: School of Life Sciences University of Hawaiʻi, Mānoa Honolulu Hawaiʻi 96822 USA
Nisa Karimi: Department of Botany University of Wisconsin–Madison Madison Wisconsin 53706 USA
Patricia Chan: Department of Botany University of Wisconsin–Madison Madison Wisconsin 53706 USA
Thomas Givnish: Department of Botany University of Wisconsin–Madison Madison Wisconsin 53706 USA
Susan R. Strickler: BTI Computational Biology Center Boyce Thompson Institute Ithaca New York 14853 USA
Chelsea D. Specht: School of Integrative Plant Science, Section of Plant Biology and the L. H. Bailey Hortorium Cornell University Ithaca New York 14853 USA

DOI: https://doi.org/10.1002/aps3.11524
Journal volume & issue: Vol. 11, no. 3
pp. n/a – n/a

Abstract

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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 Calochortus (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.

Published in Applications in Plant Sciences

ISSN: 2168-0450 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General); Science: Botany
Website: https://bsapubs.onlinelibrary.wiley.com/journal/21680450

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