Section: Genomics
Topic: Genetics/genomics

Chromosome-level genome reference of the Caucasian dwarf goby Knipowitschia cf. caucasica, a new alien Gobiidae invading the River Rhine

Corresponding author(s): Waldvogel, Ann-Marie (a.waldvogel@uni-koeln.de)

10.24072/pcjournal.490 - Peer Community Journal, Volume 4 (2024), article no. e108.

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The Caucasian dwarf goby Knipowitschia cf. caucasica is a new invasive alien Gobiidae spreading in the Lower Rhine since 2019. Little is known about the invasion biology of the species and further investigations to reconstruct the invasion history are lacking genomic resources. We assembled a high-quality chromosome-scale reference genome of Knipowitschia cf. caucasica by combining PacBio, Omni-C and Illumina technologies. The size of the assembled genome is 956.58 Mb with a N50 scaffold length of 43 Mb, which includes 92.3 % complete Actinopterygii Benchmarking Universal Single-Copy Orthologs. 98.96 % of the assembly sequence was assigned to 23 chromosome-level scaffolds, with a GC-content of 42.83 %. Repetitive elements account for 53.08 % of the genome. The chromosome-level genome contained 26,404 transcripts with 23,210 multi-exons, of which 26,260 genes were functionally annotated. In summary, the high-quality genome assembly provides a fundamental basis to understand the adaptive advantage of the species.

Published online:
DOI: 10.24072/pcjournal.490
Type: Research article
Mots-clés : fish, reference genome, invasive alien species, goby

Schoenle, Alexandra 1; Guiglielmoni, Nadège 1; Mainz, Tobias 1; Greve, Carola 2, 3; Hamadou, Alexander Ben 2, 3; Heermann, Lisa 1, 4; Borcherding, Jost 1; Waldvogel, Ann-Marie 1

1 Institute of Zoology, University of Cologne, Zülpicher Str. 47b, 50674 Cologne, Germany
2 LOEWE Center for Translational Biodiversity Genomics, Senckenberganlage 25, 60325 Frankfurt am Main, Germany
3 Senckenberg Research Institute, Senckenberganlage 25, 60325 Frankfurt am Main, Germany
4 Federal Agency for Nature Conservation, Konstantinstr. 110, 53179 Bonn, Germany
License: CC-BY 4.0
Copyrights: The authors retain unrestricted copyrights and publishing rights
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     author = {Schoenle, Alexandra and Guiglielmoni, Nad\`ege and Mainz, Tobias and Greve, Carola and Hamadou, Alexander Ben and Heermann, Lisa and Borcherding, Jost and Waldvogel, Ann-Marie},
     title = {Chromosome-level genome reference of the {Caucasian} dwarf goby {\protect\emph{Knipowitschia}} cf. \protect\emph{caucasica}, a new alien {Gobiidae} invading the {River} {Rhine}},
     journal = {Peer Community Journal},
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     year = {2024},
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Schoenle, Alexandra; Guiglielmoni, Nadège; Mainz, Tobias; Greve, Carola; Hamadou, Alexander Ben; Heermann, Lisa; Borcherding, Jost; Waldvogel, Ann-Marie. Chromosome-level genome reference of the Caucasian dwarf goby Knipowitschia cf. caucasica, a new alien Gobiidae invading the River Rhine. Peer Community Journal, Volume 4 (2024), article  no. e108. doi : 10.24072/pcjournal.490. https://peercommunityjournal.org/articles/10.24072/pcjournal.490/

PCI peer reviews and recommendation, and links to data, scripts, code and supplementary information: 10.24072/pci.genomics.100376

Conflict of interest of the recommender and peer reviewers:
The recommender in charge of the evaluation of the article and the reviewers declared that they have no conflict of interest (as defined in the code of conduct of PCI) with the authors or with the content of the article.

[1] Adrian-Kalchhauser, I.; Blomberg, A.; Larsson, T.; Musilova, Z.; Peart, C. R.; Pippel, M.; Solbakken, M. H.; Suurväli, J.; Walser, J.-C.; Wilson, J. Y.; Alm Rosenblad, M.; Burguera, D.; Gutnik, S.; Michiels, N.; Töpel, M.; Pankov, K.; Schloissnig, S.; Winkler, S. The round goby genome provides insights into mechanisms that may facilitate biological invasions, BMC Biology, Volume 18 (2020) no. 1, p. 11 | DOI

[2] Allio, R.; Schomaker‐Bastos, A.; Romiguier, J.; Prosdocimi, F.; Nabholz, B.; Delsuc, F. MitoFinder: Efficient automated large‐scale extraction of mitogenomic data in target enrichment phylogenomics, Molecular Ecology Resources, Volume 20 (2020) no. 4, pp. 892-905 | DOI

[3] Andrews, S. FastQC: a quality control tool for high throughput sequence data, 2010 (https://qubeshub.org/resources/fastqc)

[4] Bandi V; Gutwin C Interactive Exploration of Genomic Conservation, Proceedings of Graphics Interface (2020) | DOI

[5] Baudry, L.; Guiglielmoni, N.; Marie-Nelly, H.; Cormier, A.; Marbouty, M.; Avia, K.; Mie, Y. L.; Godfroy, O.; Sterck, L.; Cock, J. M.; Zimmer, C.; Coelho, S. M.; Koszul, R. instaGRAAL: chromosome-level quality scaffolding of genomes using a proximity ligation-based scaffolder, Genome Biology, Volume 21 (2020) no. 1, p. 148 | DOI

[6] BBtools BBMap, Joint Genome Institute, 2013 (https://sourceforge.net/projects/bbmap/)

[7] Bian, C.; Huang, Y.; Li, R.; Xu, P.; You, X.; Lv, Y.; Ruan, Z.; Chen, J.; Xu, J.; Shi, Q. Genomics comparisons of three chromosome-level mudskipper genome assemblies reveal molecular clues for water-to-land evolution and adaptation, Journal of Advanced Research , Volume 58 (2024), pp. 93-104 | DOI

[8] Bolger, A. M.; Lohse, M.; Usadel, B. Trimmomatic: a flexible trimmer for Illumina sequence data, Bioinformatics, Volume 30 (2014) no. 15, pp. 2114-2120 | DOI

[9] Borcherding, J.; Staas, S.; Krüger, S.; Ondračková, M.; Šlapanský, L.; Jurajda, P. Non-native Gobiid species in the lower River Rhine (Germany): recent range extensions and densities, Journal of Applied Ichthyology , Volume 27 (2011) no. 1, pp. 153-155 | DOI

[10] Borcherding, J.; Aschemeier, D.; Bruhy, J.; Heermann, L.; Lindner, J.; Schröder, S. L.; Wagner, K.; Staas, S. The Caucasian dwarf goby, a new alien Gobiidae spreading at the Lower Rhine, Germany, Journal of Applied Ichthyology , Volume 37 (2021) no. 3, pp. 479-482 | DOI

[11] Challis, R. rjchallis/assembly-stats 17.02, Zenodo, 2017 | DOI

[12] Challis, R.; Richards, E.; Rajan, J.; Cochrane, G.; Blaxter, M. BlobToolKit – Interactive Quality Assessment of Genome Assemblies, G3 Genes|Genomes|Genetics, Volume 10 (2020) no. 4, pp. 1361-1374 | DOI

[13] Community TG The Galaxy platform for accessible, reproducible and collaborative biomedical analyses: 2022 update, Nucleic Acids Research, Volume 50 (2022) no. W1 | DOI

[14] Danecek, P.; Bonfield, J. K.; Liddle, J.; Marshall, J.; Ohan, V.; Pollard, M. O.; Whitwham, A.; Keane, T.; McCarthy, S. A.; Davies, R. M.; Li, H. Twelve years of SAMtools and BCFtools, GigaScience, Volume 10 (2021) no. 2, p. giab008 | DOI

[15] Deiner, K.; Bik, H. M.; Mächler, E.; Seymour, M.; Lacoursière-Roussel, A.; Altermatt, F.; Creer, S.; Bista, I.; Lodge, D. M.; de Vere, N.; Pfrender, M. E.; Bernatchez, L. Environmental DNA metabarcoding: Transforming how we survey animal and plant communities, Molecular Ecology, Volume 26 ((2017) no. 21, pp. 5872-5895 | DOI

[16] Didenko, A.; Buzevych, I.; Volikov, Y.; Kruzhylina, S.; Gurbyk, A. Population dynamics and feeding ecology of the invasive Caucasian dwarf goby, textitKnipowitschia caucasica , in a freshwater habitat in Ukraine, . Knowledge & Management of Aquatic Ecosystems (2020) no. 421, p. 26 | DOI

[17] Flynn, J. M.; Hubley, R.; Goubert, C.; Rosen, J.; Clark, A. G.; Feschotte, C.; Smit, A. F. RepeatModeler2 for automated genomic discovery of transposable element families, Proceedings of the National Academy of Sciences, Volume 117 (2020) no. 17, pp. 9451-9457 | DOI

[18] Gabriel, L.; Brůna, T.; Hoff, K. J.; Ebel, M.; Lomsadze, A.; Borodovsky, M.; Stanke, M. BRAKER3: Fully Automated Genome Annotation Using RNA-Seq and Protein Evidence with GeneMark-ETP, AUGUSTUS and TSEBRA, bioRxiv (2023) | DOI

[19] Irisarri, I. New chromosome-scale genome assembly for the Dwarf Goby, a River Rhine invader, Peer Community In Genomics (2024) | DOI

[20] Jaspers, C.; Ehrlich, M.; Pujolar, J. M.; Künzel, S.; Bayer, T.; Limborg, M. T.; Lombard, F.; Browne, W. E.; Stefanova, K.; Reusch, T. B. H. Invasion genomics uncover contrasting scenarios of genetic diversity in a widespread marine invader, Proceedings of the National Academy of Sciences, Volume 118 (2021) no. 51 | DOI

[21] Jones, P.; Binns, D.; Chang, H.-Y.; Fraser, M.; Li, W.; McAnulla, C.; McWilliam, H.; Maslen, J.; Mitchell, A.; Nuka, G.; Pesseat, S.; Quinn, A. F.; Sangrador-Vegas, A.; Scheremetjew, M.; Yong, S.-Y.; Lopez, R.; Hunter, S. InterProScan 5: genome-scale protein function classification, Bioinformatics, Volume 30 (2014) no. 9, pp. 1236-1240 | DOI

[22] Kolmogorov, M.; Yuan, J.; Lin, Y.; Pevzner, P. A. Assembly of long, error-prone reads using repeat graphs, Nature Biotechnology, Volume 37 (2019) no. 5, pp. 540-546 | DOI

[23] Kundu, R.; Casey, J.; Sung, W.-K. HyPo: Super Fast Accurate Polisher for Long Read Genome Assemblies, bioRxiv (2019) | DOI

[24] Kuznetsov, D.; Tegenfeldt, F.; Manni, M.; Seppey, M.; Berkeley, M.; Kriventseva, E. V.; Zdobnov, E. M. OrthoDB v11: annotation of orthologs in the widest sampling of organismal diversity, Nucleic Acids Research, Volume 51 (2022) no. D1, p. D445-D451 | DOI

[25] Manni, M.; Berkeley, M. R.; Seppey, M.; Simão, F. A.; Zdobnov, E. M. BUSCO Update: Novel and Streamlined Workflows along with Broader and Deeper Phylogenetic Coverage for Scoring of Eukaryotic, Prokaryotic, and Viral Genomes, Molecular Biology and Evolution, Volume 38 (2021) no. 10, pp. 4647-4654 | DOI

[26] Mapleson, D.; Garcia Accinelli, G.; Kettleborough, G.; Wright, J.; Clavijo, B. J. KAT: a K-mer analysis toolkit to quality control NGS datasets and genome assemblies, Bioinformatics (2016) | DOI

[27] Matheson, P.; McGaughran, A. Genomic data is missing for many highly invasive species, restricting our preparedness for escalating incursion rates, Scientific Reports, Volume 12 (2022) no. 1 | DOI

[28] Matthey-Doret C; Baudry L; Bignaud A; Cournac A; Montagne R; Guiglielmoni N; Foutel-Rodier; T, S. V. hicstuff: Simple library/pipeline to generate and handle Hi-C data. Version v2.3.1, Zenodo, 2020 | DOI

[29] Pont, D.; Meulenbroek, P.; Bammer, V.; Dejean, T.; Erős, T.; Jean, P.; Lenhardt, M.; Nagel, C.; Pekarik, L.; Schabuss, M.; Stoeckle, B. C.; Stoica, E.; Zornig, H.; Weigand, A.; Valentini, A. Quantitative monitoring of diverse fish communities on a large scale combining eDNA metabarcoding and qPCR, Molecular Ecology Resources, Volume 23 (2023) no. 2, pp. 396-409 | DOI

[30] Ruan, J.; Li, H. Fast and accurate long-read assembly with wtdbg2, Nature Methods, Volume 17 (2020) no. 2, pp. 155-158 | DOI

[31] Sambrook, J.; Russel, W. DNA isolation from mammalian tissue, Molecular Cloning: A Laboratory Manual (3rd Edition), Cold Spring Harbor Laboratory Press, New York, 2001, pp. 623-627

[32] Shen, W.; Le, S.; Li, Y.; Hu, F. SeqKit: A Cross-Platform and Ultrafast Toolkit for FASTA/Q File Manipulation, PLOS ONE, Volume 11 (2016) no. 10 | DOI

[33] Smit, A.; Hubley, R.; Green, P. RepeatMasker Open-4.0 (http://www.repeatmasker.org/)

[34] Szűcs, M.; Vahsen, M. L.; Melbourne, B. A.; Hoover, C.; Weiss-Lehman, C.; Hufbauer, R. A. Rapid adaptive evolution in novel environments acts as an architect of population range expansion, Proceedings of the National Academy of Sciences (2017) no. 51, pp. 13501-13506 | DOI

[35] Tsuji, S.; Inui, R.; Nakao, R.; Miyazono, S.; Saito, M.; Kono, T.; Akamatsu, Y. Quantitative environmental DNA metabarcoding shows high potential as a novel approach to quantitatively assess fish community, Scientific Reports, Volume 12 (2022) no. 1 | DOI

[36] Uliano-Silva, M.; Ferreira, J. G. R. N.; Krasheninnikova, K.; Blaxter, M.; Mieszkowska, N.; Hall, N.; Holland, P.; Durbin, R.; Richards, T.; Kersey, P.; Hollingsworth, P.; Wilson, W.; Twyford, A.; Gaya, E.; Lawniczak, M.; Lewis, O.; Broad, G.; Martin, F.; Hart, M.; Barnes, I.; Formenti, G.; Abueg, L.; Torrance, J.; Myers, E. W.; Durbin, R.; Blaxter, M.; McCarthy, S. A.; Darwin Tree of Life Consortium MitoHiFi: a python pipeline for mitochondrial genome assembly from PacBio high fidelity reads, BMC Bioinformatics, Volume 24 (2023) no. 1, p. 288 | DOI

[37] Vaser, R.; Šikić, M. Time- and memory-efficient genome assembly with Raven, Nature Computational Science, Volume 1 (2021) no. 5, pp. 332-336 | DOI

[38] Waldvogel AM; Schoenle A Data from: De Novo Genome assembly of the Caucasian dwarf goby Knipowitschia cf. caucasica, a new alien Gobiidae invading the River Rhine, Zenodo, 2024 | DOI

[39] Wang, Y.; Tang, H.; DeBarry, J. D.; Tan, X.; Li, J.; Wang, X.; Lee, T.-H.; Jin, H.; Marler, B. S.; Guo, H.; Kissinger, J. C.; Paterson, A. H. MCScanX: a toolkit for detection and evolutionary analysis of gene synteny and collinearity, Nucleic Acids Research, Volume 40 (2012) no. 7 | DOI

[40] Wang, Y.; Tang, H.; Wang, X.; Sun, Y.; Joseph, P. V.; Paterson, A. H. Detection of colinear blocks and synteny and evolutionary analyses based on utilization of MCScanX, Nature Protocols, Volume 19 (2024) no. 7, pp. 2206-2229 | DOI

[41] Xu, M.; Guo, L.; Gu, S.; Wang, O.; Zhang, R.; Peters, B. A.; Fan, G.; Liu, X.; Xu, X.; Deng, L.; Zhang, Y. TGS-GapCloser: A fast and accurate gap closer for large genomes with low coverage of error-prone long reads, GigaScience, Volume 9 (2020) no. 9 | DOI

[42] Yin, X.; Martinez, A. S.; Sepúlveda, M. S.; Christie, M. R. Rapid genetic adaptation to recently colonized environments is driven by genes underlying life history traits, BMC Genomics, Volume 22 (2021) no. 1 | DOI

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