Abstract

BackgroundWhole mitogenomes or short fragments (i.e., 300–700 bp of the cox1 gene) are the markers of choice for revealing within- and among-species genealogies. Protocols for sequencing and assembling mitogenomes include ‘primer walking’ or ‘long PCR’ followed by Sanger sequencing or Illumina short-read low-coverage whole genome (LC-WGS) sequencing with or without prior enrichment of mitochondrial DNA. The aforementioned strategies assemble complete and accurate mitochondrial genomes but are time consuming and/or expensive. In this study, I first tested whether mitogenomes can be sequenced from long-read nanopore sequencing data exclusively. Second, I explored the accuracy of the long-read assembled genomes by comparing them to a ‘gold’ standard reference mitogenome retrieved from the same individual using Illumina sequencing. Third and lastly, I tested if the long-read assemblies are useful for mitophylogenomics and barcoding research. To accomplish these goals, I used the Caribbean spiny lobster Panulirus argus, an ecologically relevant species in shallow water coral reefs and target of the most lucrative fishery in the greater Caribbean region. ResultsLC-WGS using a MinION ONT device and various de-novo and reference-based assembly pipelines retrieved a complete and highly accurate mitogenome for the Caribbean spiny lobster Panulirus argus. Discordance between each of the long-read assemblies and the reference mitogenome was mostly due to indels at the flanks of homopolymer regions. Although not ‘perfect’, phylogenetic analyses using entire mitogenomes or a fragment of the cox1 gene demonstrated that mitogenomes assembled using long reads reliably identify the sequenced specimen as belonging to P. argus and distinguish it from other related species in the same genus, family, and superorder.ConclusionsThis study serves as a proof-of-concept for the future implementation of in-situ surveillance protocols using the MinION to detect mislabeling in P. argus across its supply chain. Mislabeling detection will improve fishery management in this overexploited lobster. This study will additionally aid in decreasing costs for exploring meta-population connectivity in the Caribbean spiny lobster and will aid with the transfer of genomics technology to low-income countries.

Highlights

  • Whole mitogenomes or short fragments (i.e., 300–700 bp of the cox1 gene) are the markers of choice for revealing within- and among-species genealogies

  • This study will aid in decreasing costs for exploring metapopulation connectivity in the Caribbean spiny lobster and will aid with the transfer of genomics technology to lowincome countries

  • Mitochondrial genome assembly of Panulirus argus using long reads The pipeline Canu, unexpectedly, did not assemble any circular molecule either with default setting or with parameters modified to optimize the retrieval of small circular sequences from data with uneven coverage

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Summary

Introduction

Whole mitogenomes or short fragments (i.e., 300–700 bp of the cox gene) are the markers of choice for revealing within- and among-species genealogies. I tested if the long-read assemblies are useful for mitophylogenomics and barcoding research. To accomplish these goals, I used the Caribbean spiny lobster Panulirus argus, an ecologically relevant species in shallow water coral reefs and target of the most lucrative fishery in the greater Caribbean region. Exceptions to the aforementioned organization exist; mtDNA comprised of one or more linear molecules only or along with circular molecules have been reported in some invertebrate clades (e.g., Anthozoa: Meduzoa, Insecta: Phthiraptera) while in others, limited or moderate single- or multi-gene block deletions, duplications, inversions, and/or translocations are known [3]. The mitochondrial genes are either lost or encoded in the nucleus in A. ceratii [4]

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