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1. De Novo Genome Assemblies for Three North American Bumble Bee species: Bombus bifarius , Bombus vancouverensis , and Bombus vosnesenskii

   https://doi.org/10.1534/g3.120.401437  

   Heraghty, Sam D.; Sutton, John M.; Pimsler, Meaghan L.; Fierst, Janna L.; Strange, James P.; Lozier, Jeffrey D. (August 2020, G3)

   Bumble bees are ecologically and economically important insect pollinators. Three abundant and widespread species in western North America, Bombus bifarius, Bombus vancouverensis, and Bombus vosnesenskii, have been the focus of substantial research relating to diverse aspects of bumble bee ecology and evolutionary biology. We present de novo genome assemblies for each of the three species using hybrid assembly of Illumina and Oxford Nanopore Technologies sequences. All three assemblies are of high quality with large N50s (> 2.2 Mb), BUSCO scores indicating > 98% complete genes, and annotations producing 13,325 - 13,687 genes, comparing favorably with other bee genomes. Analysis of synteny against the most complete bumble bee genome, Bombus terrestris, reveals a high degree of collinearity. These genomes should provide a valuable resource for addressing questions relating to functional genomics and evolutionary biology in these species. 

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2. Benchmarking Oxford Nanopore read assemblers for high-quality molluscan genomes

   https://doi.org/10.1098/rstb.2020.0160  

   Sun, Jin; Li, Runsheng; Chen, Chong; Sigwart, Julia D.; Kocot, Kevin M. (May 2021, Philosophical Transactions of the Royal Society B: Biological Sciences)

   null (Ed.)

   Choosing the optimum assembly approach is essential to achieving a high-quality genome assembly suitable for comparative and evolutionary genomic investigations. Significant recent progress in long-read sequencing technologies such as PacBio and Oxford Nanopore Technologies (ONT) has also brought about a large variety of assemblers. Although these have been extensively tested on model species such as Homo sapiens and Drosophila melanogaster , such benchmarking has not been done in Mollusca, which lacks widely adopted model species. Molluscan genomes are notoriously rich in repeats and are often highly heterozygous, making their assembly challenging. Here, we benchmarked 10 assemblers based on ONT raw reads from two published molluscan genomes of differing properties, the gastropod Chrysomallon squamiferum (356.6 Mb, 1.59% heterozygosity) and the bivalve Mytilus coruscus (1593 Mb, 1.94% heterozygosity). By optimizing the assembly pipeline, we greatly improved both genomes from previously published versions. Our results suggested that 40–50X of ONT reads are sufficient for high-quality genomes, with Flye being the recommended assembler for compact and less heterozygous genomes exemplified by C. squamiferum , while NextDenovo excelled for more repetitive and heterozygous molluscan genomes exemplified by M. coruscus . A phylogenomic analysis using the two updated genomes with 32 other published high-quality lophotrochozoan genomes resulted in maximum support across all nodes, and we show that improved genome quality also leads to more complete matrices for phylogenomic inferences. Our benchmarking will ensure efficiency in future assemblies for molluscs and perhaps also for other marine phyla with few genomes available. This article is part of the Theo Murphy meeting issue ‘Molluscan genomics: broad insights and future directions for a neglected phylum’. 

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3. Chromosome-scale genome assemblies and annotations for Poales species Carex cristatella , Carex scoparia , Juncus effusus , and Juncus inflexus

   https://doi.org/10.1093/g3journal/jkac211  

   Planta, Jose; Liang, Yu-Ya; Xin, Haoyang; Chansler, Matthew T; Prather, L Alan; Jiang, Ning; Jiang, Jiming; Childs, Kevin L (August 2022, G3 Genes|Genomes|Genetics)

   Tribble, C (Ed.)

   Abstract The majority of sequenced genomes in the monocots are from species belonging to Poaceae, which include many commercially important crops. Here, we expand the number of sequenced genomes from the monocots to include the genomes of 4 related cyperids: Carex cristatella and Carex scoparia from Cyperaceae and Juncus effusus and Juncus inflexus from Juncaceae. The high-quality, chromosome-scale genome sequences from these 4 cyperids were assembled by combining whole-genome shotgun sequencing of Nanopore long reads, Illumina short reads, and Hi-C sequencing data. Some members of the Cyperaceae and Juncaceae are known to possess holocentric chromosomes. We examined the repeat landscapes in our sequenced genomes to search for potential repeats associated with centromeres. Several large satellite repeat families, comprising 3.2–9.5% of our sequenced genomes, showed dispersed distribution of large satellite repeat clusters across all Carex chromosomes, with few instances of these repeats clustering in the same chromosomal regions. In contrast, most large Juncus satellite repeats were clustered in a single location on each chromosome, with sporadic instances of large satellite repeats throughout the Juncus genomes. Recognizable transposable elements account for about 20% of each of the 4 genome assemblies, with the Carex genomes containing more DNA transposons than retrotransposons while the converse is true for the Juncus genomes. These genome sequences and annotations will facilitate better comparative analysis within monocots. 

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4. The Genome Architecture of the Copepod Eurytemora carolleeae —  the Highly Invasive Atlantic Clade of the Eurytemora affinis Species Complex

   https://doi.org/10.1093/gpbjnl/qzae066  

   Du, Zhenyong; Gelembiuk, Gregory; Moss, Wynne; Tritt, Andrew; Lee, Carol Eunmi (October 2024, Genomics, Proteomics & Bioinformatics)

   Jiang, Yu (Ed.)

   Abstract Copepods are among the most abundant organisms on the planet and play critical functions in aquatic ecosystems. Among copepods, populations of the Eurytemora affinis species complex are numerically dominant in many coastal habitats and serve as food sources for major fisheries. Intriguingly, certain populations possess the unusual capacity to invade novel salinities on rapid time scales. Despite their ecological importance, high-quality genomic resources have been absent for calanoid copepods, limiting our ability to comprehensively dissect the genome architecture underlying the highly invasive and adaptive capacity of certain populations. Here, we present the first chromosome-level genome of a calanoid copepod, from the Atlantic clade (Eurytemora carolleeae) of the E. affinis species complex. This genome was assembled using high-coverage PacBio long-read and Hi-C sequences of an inbred line, generated through 30 generations of full-sib mating. This genome, consisting of 529.3 Mb (contig N50 = 4.2 Mb, scaffold N50 = 140.6 Mb), was anchored onto four chromosomes. Genome annotation predicted 20,262 protein-coding genes, of which ion transport-related gene families were substantially expanded based on comparative analyses of 12 additional arthropod genomes. Also, we found genome-wide signatures of historical gene body methylation of the ion transport-related genes and the significant clustering of these genes on each chromosome. This genome represents one of the most contiguous copepod genomes to date and is among the highest quality marine invertebrate genomes. As such, this genome provides an invaluable resource to help yield fundamental insights into the ability of this copepod to adapt to rapidly changing environments. 

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5. A high‐quality chromosome‐level genome assembly of a generalist herbivore, Trichoplusia ni

   https://doi.org/10.1111/1755-0998.12966  

   Chen, Wenbo; Yang, Xiaowei; Tetreau, Guillaume; Song, Xiaozhao; Coutu, Cathy; Hegedus, Dwayne; Blissard, Gary; Fei, Zhangjun; Wang, Ping (January 2019, Molecular Ecology Resources)

   Abstract The cabbage looper,Trichoplusia ni, is a globally distributed highly polyphagous herbivore and an important agricultural pest.T. nihas evolved resistance to various chemical insecticides, and is one of the only two insect species that have evolved resistance to the biopesticideBacillus thuringiensis(Bt) in agricultural systems and has been selected for resistance to baculovirus infections. We report a 333‐Mb high‐qualityT. nigenome assembly, which has N50 lengths of scaffolds and contigs of 4.6 Mb and 140 Kb, respectively, and contains 14,384 protein‐coding genes. High‐density genetic maps were constructed to anchor 305 Mb (91.7%) of the assembly to 31 chromosomes. Comparative genomic analysis ofT. niwithBombyx morishowed enrichment of tandemly duplicated genes inT. niin families involved in detoxification and digestion, consistent with the broad host range ofT. ni. High levels of genome synteny were found betweenT. niand other sequenced lepidopterans. However, genome synteny analysis ofT. niand theT. niderived cell line High Five (Hi5) indicated extensive genome rearrangements in the cell line. These results provided the first genomic evidence revealing the high instability of chromosomes in lepidopteran cell lines known from karyotypic observations. The high‐qualityT. nigenome sequence provides a valuable resource for research in a broad range of areas including fundamental insect biology, insect‐plant interactions and co‐evolution, mechanisms and evolution of insect resistance to chemical and biological pesticides, and technology development for insect pest management. 

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