A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus

Sven Winter; Jordi de Raad; Magnus Wolf; Raphael T. F. Coimbra; Menno J. de Jong; Yannis Schoeneberg; Maria Christoph; Hagen von Klopotek; Katharina Bach; Behgol Pashm Foroush; Wiebke Hanack; Aaron Hagen Kauffeldt; Tim Milz; Emmanuel Kipruto Ngetich; Christian Wenz; Moritz Sonnewald; Maria Anna Nilsson; Axel Janke

doi:10.1093/JHERED/ESAD003

A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus

Sven Winter, Jordi de Raad, Magnus Wolf, Raphael T. F. Coimbra, Menno J. de Jong, Yannis Schoeneberg, Maria Christoph, Hagen von Klopotek, Katharina Bach, Behgol Pashm Foroush, Wiebke Hanack, Aaron Hagen Kauffeldt, Tim Milz, Emmanuel Kipruto Ngetich, Christian Wenz, Moritz Sonnewald, Maria Anna Nilsson, Axel Janke

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

2 Citations (Scopus)

Abstract

Despite increasing sequencing efforts, numerous fish families still lack a reference genome, which complicates genetic research. One such understudied family is the sand lances (Ammodytidae, literally: “sand burrower”), a globally distributed clade of over 30 fish species that tend to avoid tidal currents by burrowing into the sand. Here, we present the first annotated chromosome-level genome assembly of the great sand eel (Hyperoplus lanceolatus). The genome assembly was generated using Oxford Nanopore Technologies long sequencing reads and Illumina short reads for polishing. The final assembly has a total length of 808.5 Mbp, of which 97.1% were anchored into 24 chromosome-scale scaffolds using proximity-ligation scaffolding. It is highly contiguous with a scaffold and contig N50 of 33.7 and 31.3 Mbp, respectively, and has a BUSCO completeness score of 96.9%. The presented genome assembly is a valuable resource for future studies of sand lances, as this family is of great ecological and commercial importance and may also contribute to studies aiming to resolve the suprafamiliar taxonomy of bony fishes.

Original language	English
Pages (from-to)	189-194
Number of pages	6
Journal	Journal of Heredity
Volume	114
Issue number	2
DOIs	https://doi.org/10.1093/JHERED/ESAD003
Publication status	Published - 2023
Externally published	Yes

Keywords

Ammodytidae
Eupercaria
Omni-c
Oxford nanopore
proximity-ligation scaffolding

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10.1093/JHERED/ESAD003Licence: CC BY-NC

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Winter, S., de Raad, J., Wolf, M., Coimbra, R. T. F., de Jong, M. J., Schoeneberg, Y., Christoph, M., von Klopotek, H., Bach, K., Pashm Foroush, B., Hanack, W., Kauffeldt, A. H., Milz, T., Ngetich, E. K., Wenz, C., Sonnewald, M., Nilsson, M. A., & Janke, A. (2023). A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus. Journal of Heredity, 114(2), 189-194. https://doi.org/10.1093/JHERED/ESAD003

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title = "A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus",

abstract = "Despite increasing sequencing efforts, numerous fish families still lack a reference genome, which complicates genetic research. One such understudied family is the sand lances (Ammodytidae, literally: “sand burrower”), a globally distributed clade of over 30 fish species that tend to avoid tidal currents by burrowing into the sand. Here, we present the first annotated chromosome-level genome assembly of the great sand eel (Hyperoplus lanceolatus). The genome assembly was generated using Oxford Nanopore Technologies long sequencing reads and Illumina short reads for polishing. The final assembly has a total length of 808.5 Mbp, of which 97.1% were anchored into 24 chromosome-scale scaffolds using proximity-ligation scaffolding. It is highly contiguous with a scaffold and contig N50 of 33.7 and 31.3 Mbp, respectively, and has a BUSCO completeness score of 96.9%. The presented genome assembly is a valuable resource for future studies of sand lances, as this family is of great ecological and commercial importance and may also contribute to studies aiming to resolve the suprafamiliar taxonomy of bony fishes.",

keywords = "Ammodytidae, Eupercaria, Omni-c, Oxford nanopore, proximity-ligation scaffolding",

author = "Sven Winter and {de Raad}, Jordi and Magnus Wolf and Coimbra, {Raphael T. F.} and {de Jong}, {Menno J.} and Yannis Schoeneberg and Maria Christoph and {von Klopotek}, Hagen and Katharina Bach and {Pashm Foroush}, Behgol and Wiebke Hanack and Kauffeldt, {Aaron Hagen} and Tim Milz and Ngetich, {Emmanuel Kipruto} and Christian Wenz and Moritz Sonnewald and Nilsson, {Maria Anna} and Axel Janke",

year = "2023",

doi = "10.1093/JHERED/ESAD003",

language = "English",

volume = "114",

pages = "189--194",

journal = "Journal of Heredity",

issn = "0022-1503",

publisher = "Oxford University Press",

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Winter, S, de Raad, J, Wolf, M, Coimbra, RTF, de Jong, MJ, Schoeneberg, Y, Christoph, M, von Klopotek, H, Bach, K, Pashm Foroush, B, Hanack, W, Kauffeldt, AH, Milz, T, Ngetich, EK, Wenz, C, Sonnewald, M, Nilsson, MA & Janke, A 2023, 'A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus', Journal of Heredity, vol. 114, no. 2, pp. 189-194. https://doi.org/10.1093/JHERED/ESAD003

TY - JOUR

T1 - A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus

AU - Winter, Sven

AU - de Raad, Jordi

AU - Wolf, Magnus

AU - Coimbra, Raphael T. F.

AU - de Jong, Menno J.

AU - Schoeneberg, Yannis

AU - Christoph, Maria

AU - von Klopotek, Hagen

AU - Bach, Katharina

AU - Pashm Foroush, Behgol

AU - Hanack, Wiebke

AU - Kauffeldt, Aaron Hagen

AU - Milz, Tim

AU - Ngetich, Emmanuel Kipruto

AU - Wenz, Christian

AU - Sonnewald, Moritz

AU - Nilsson, Maria Anna

AU - Janke, Axel

PY - 2023

Y1 - 2023

N2 - Despite increasing sequencing efforts, numerous fish families still lack a reference genome, which complicates genetic research. One such understudied family is the sand lances (Ammodytidae, literally: “sand burrower”), a globally distributed clade of over 30 fish species that tend to avoid tidal currents by burrowing into the sand. Here, we present the first annotated chromosome-level genome assembly of the great sand eel (Hyperoplus lanceolatus). The genome assembly was generated using Oxford Nanopore Technologies long sequencing reads and Illumina short reads for polishing. The final assembly has a total length of 808.5 Mbp, of which 97.1% were anchored into 24 chromosome-scale scaffolds using proximity-ligation scaffolding. It is highly contiguous with a scaffold and contig N50 of 33.7 and 31.3 Mbp, respectively, and has a BUSCO completeness score of 96.9%. The presented genome assembly is a valuable resource for future studies of sand lances, as this family is of great ecological and commercial importance and may also contribute to studies aiming to resolve the suprafamiliar taxonomy of bony fishes.

AB - Despite increasing sequencing efforts, numerous fish families still lack a reference genome, which complicates genetic research. One such understudied family is the sand lances (Ammodytidae, literally: “sand burrower”), a globally distributed clade of over 30 fish species that tend to avoid tidal currents by burrowing into the sand. Here, we present the first annotated chromosome-level genome assembly of the great sand eel (Hyperoplus lanceolatus). The genome assembly was generated using Oxford Nanopore Technologies long sequencing reads and Illumina short reads for polishing. The final assembly has a total length of 808.5 Mbp, of which 97.1% were anchored into 24 chromosome-scale scaffolds using proximity-ligation scaffolding. It is highly contiguous with a scaffold and contig N50 of 33.7 and 31.3 Mbp, respectively, and has a BUSCO completeness score of 96.9%. The presented genome assembly is a valuable resource for future studies of sand lances, as this family is of great ecological and commercial importance and may also contribute to studies aiming to resolve the suprafamiliar taxonomy of bony fishes.

KW - Ammodytidae

KW - Eupercaria

KW - Omni-c

KW - Oxford nanopore

KW - proximity-ligation scaffolding

UR - https://publons.com/wos-op/publon/55916547/

U2 - 10.1093/JHERED/ESAD003

DO - 10.1093/JHERED/ESAD003

M3 - Article

SN - 0022-1503

VL - 114

SP - 189

EP - 194

JO - Journal of Heredity

JF - Journal of Heredity

IS - 2

ER -

A chromosome-scale reference genome assembly of the great sand eel, Hyperoplus lanceolatus

Abstract

Keywords

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