The genome of the zebra mussel, Dreissena polymorpha: a resource for comparative genomics, invasion genetics, and biocontrol

Michael A. McCartney; Ben Auch; Thomas Kono; Sophie Mallez; Ying Zhang; Angelico Obille; Aaron Becker; Juan E. Abrahante; John Garbe; Jonathan P. Badalamenti; Adam C Herman; Hayley Mangelson; Ivan Liachko; Shawn Sullivan; Eli D. Sone; Sergey Koren; Kevin Silverstein; Kenny B Beckman; Daryl M. Gohl

doi:10.1093/g3journal/jkab423

The genome of the zebra mussel, Dreissena polymorpha: a resource for comparative genomics, invasion genetics, and biocontrol

Michael A. McCartney, Ben Auch, Thomas Kono, Sophie Mallez, Ying Zhang, Angelico Obille, Aaron Becker, Juan E. Abrahante, John Garbe, Jonathan P. Badalamenti, Adam C Herman, Hayley Mangelson, Ivan Liachko, Shawn Sullivan, Eli D. Sone, Sergey Koren, Kevin Silverstein, Kenny B Beckman, Daryl M. Gohl

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

The zebra mussel, Dreissena polymorpha, continues to spread from its native range in Eurasia to Europe and North America, causing billions of dollars in damage and dramatically altering invaded aquatic ecosystems. Despite these impacts, there are few genomic resources for Dreissena or related bivalves. Although the D. polymorpha genome is highly repetitive, we have used a combination of long-read sequencing and Hi-C-based scaffolding to generate a high-quality chromosome-scale genome assembly. Through comparative analysis and transcriptomics experiments, we have gained insights into processes that likely control the invasive success of zebra mussels, including shell formation, synthesis of byssal threads, and thermal tolerance. We identified multiple intact steamer-like elements, a retrotransposon that has been linked to transmissible cancer in marine clams. We also found that D. polymorpha have an unusual 67 kb mitochondrial genome containing numerous tandem repeats, making it the largest observed in Eumetazoa. Together these findings create a rich resource for invasive species research and control efforts.

Original language	English (US)
Article number	jkab423
Journal	G3: Genes, Genomes, Genetics
Volume	12
Issue number	2
DOIs	https://doi.org/10.1093/g3journal/jkab423
State	Published - Feb 2022

Bibliographical note

Funding Information:
S.K. is supported by the Intramural Research Program of the National Human Genome Research Institute, National Institutes of Health. Funding was from the Minnesota Environment and Natural Resources Trust Fund and the Minnesota Aquatic Invasive Species Research Center.

Publisher Copyright:
VC The Author(s) 2021.

Keywords

Dreissena polymorpha
Genome
RNA-Seq
Shell formation
Stress response
Thermal tolerance
Zebra mussel

PubMed: MeSH publication types

Journal Article
Research Support, N.I.H., Extramural
Research Support, N.I.H., Intramural
Research Support, Non-U.S. Gov't

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/g3journal/jkab423

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McCartney, M. A., Auch, B., Kono, T., Mallez, S., Zhang, Y., Obille, A., Becker, A., Abrahante, J. E., Garbe, J., Badalamenti, J. P., Herman, A. C., Mangelson, H., Liachko, I., Sullivan, S., Sone, E. D., Koren, S., Silverstein, K., Beckman, K. B., & Gohl, D. M. (2022). The genome of the zebra mussel, Dreissena polymorpha: a resource for comparative genomics, invasion genetics, and biocontrol. G3: Genes, Genomes, Genetics, 12(2), Article jkab423. https://doi.org/10.1093/g3journal/jkab423

McCartney, MA, Auch, B, Kono, T, Mallez, S, Zhang, Y, Obille, A, Becker, A, Abrahante, JE , Garbe, J, Badalamenti, JP, Herman, AC, Mangelson, H, Liachko, I, Sullivan, S, Sone, ED, Koren, S, Silverstein, K , Beckman, KB & Gohl, DM 2022, 'The genome of the zebra mussel, Dreissena polymorpha: a resource for comparative genomics, invasion genetics, and biocontrol', G3: Genes, Genomes, Genetics, vol. 12, no. 2, jkab423. https://doi.org/10.1093/g3journal/jkab423

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abstract = "The zebra mussel, Dreissena polymorpha, continues to spread from its native range in Eurasia to Europe and North America, causing billions of dollars in damage and dramatically altering invaded aquatic ecosystems. Despite these impacts, there are few genomic resources for Dreissena or related bivalves. Although the D. polymorpha genome is highly repetitive, we have used a combination of long-read sequencing and Hi-C-based scaffolding to generate a high-quality chromosome-scale genome assembly. Through comparative analysis and transcriptomics experiments, we have gained insights into processes that likely control the invasive success of zebra mussels, including shell formation, synthesis of byssal threads, and thermal tolerance. We identified multiple intact steamer-like elements, a retrotransposon that has been linked to transmissible cancer in marine clams. We also found that D. polymorpha have an unusual 67 kb mitochondrial genome containing numerous tandem repeats, making it the largest observed in Eumetazoa. Together these findings create a rich resource for invasive species research and control efforts.",

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note = "Funding Information: S.K. is supported by the Intramural Research Program of the National Human Genome Research Institute, National Institutes of Health. Funding was from the Minnesota Environment and Natural Resources Trust Fund and the Minnesota Aquatic Invasive Species Research Center. Publisher Copyright: VC The Author(s) 2021.",

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AU - Obille, Angelico

AU - Becker, Aaron

AU - Abrahante, Juan E.

AU - Garbe, John

AU - Badalamenti, Jonathan P.

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N2 - The zebra mussel, Dreissena polymorpha, continues to spread from its native range in Eurasia to Europe and North America, causing billions of dollars in damage and dramatically altering invaded aquatic ecosystems. Despite these impacts, there are few genomic resources for Dreissena or related bivalves. Although the D. polymorpha genome is highly repetitive, we have used a combination of long-read sequencing and Hi-C-based scaffolding to generate a high-quality chromosome-scale genome assembly. Through comparative analysis and transcriptomics experiments, we have gained insights into processes that likely control the invasive success of zebra mussels, including shell formation, synthesis of byssal threads, and thermal tolerance. We identified multiple intact steamer-like elements, a retrotransposon that has been linked to transmissible cancer in marine clams. We also found that D. polymorpha have an unusual 67 kb mitochondrial genome containing numerous tandem repeats, making it the largest observed in Eumetazoa. Together these findings create a rich resource for invasive species research and control efforts.

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The genome of the zebra mussel, Dreissena polymorpha: a resource for comparative genomics, invasion genetics, and biocontrol

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

UN SDGs

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