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1. Chromosome-level genome assembly, annotation, and phylogenomics of the gooseneck barnacle Pollicipes pollicipes

   https://doi.org/10.1093/gigascience/giac021  

   Bernot, James P. ; Avdeyev, Pavel ; Zamyatin, Anton ; Dreyer, Niklas ; Alexeev, Nikita ; Pérez-Losada, Marcos ; Crandall, Keith A. ( March 2022 , GigaScience)

   The barnacles are a group of >2,000 species that have fascinated biologists, including Darwin, for centuries. Their lifestyles are extremely diverse, from free-swimming larvae to sessile adults, and even root-like endoparasites. Barnacles also cause hundreds of millions of dollars of losses annually due to biofouling. However, genomic resources for crustaceans, and barnacles in particular, are lacking.

   Using 62× Pacific Biosciences coverage, 189× Illumina whole-genome sequencing coverage, 203× HiC coverage, and 69× CHi-C coverage, we produced a chromosome-level genome assembly of the gooseneck barnacle Pollicipes pollicipes. The P. pollicipes genome is 770 Mb long and its assembly is one of the most contiguous and complete crustacean genomes available, with a scaffold N50 of 47 Mb and 90.5% of the BUSCO Arthropoda gene set. Using the genome annotation produced here along with transcriptomes of 13 other barnacle species, we completed phylogenomic analyses on a nearly 2 million amino acid alignment. Contrary to previous studies, our phylogenies suggest that the Pollicipedomorpha is monophyletic and sister to the Balanomorpha, which alters our understanding of barnacle larval evolution and suggests homoplasy in a number of naupliar characters. We also compared transcriptomes of P. pollicipes nauplius larvae and adults and found that nearly one-half of the genes in the genome are differentially expressed, highlighting the vastly different transcriptomes of larvae and adult gooseneck barnacles. Annotation of the genes with KEGG and GO terms reveals that these stages exhibit many differences including cuticle binding, chitin binding, microtubule motor activity, and membrane adhesion.

   This study provides high-quality genomic resources for a key group of crustaceans. This is especially valuable given the roles P. pollicipes plays in European fisheries, as a sentinel species for coastal ecosystems, and as a model for studying barnacle adhesion as well as its key position in the barnacle tree of life. A combination of genomic, phylogenetic, and transcriptomic analyses here provides valuable insights into the evolution and development of barnacles.

    

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2. 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)

   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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3. Haplogenome assembly reveals structural variation in Eucalyptus interspecific hybrids

   https://doi.org/10.1093/gigascience/giad064  

   Lötter, Anneri ; Duong, Tuan A ; Candotti, Julia ; Mizrachi, Eshchar ; Wegrzyn, Jill L ; Myburg, Alexander A ( December 2022 , GigaScience)

   De novo phased (haplo)genome assembly using long-read DNA sequencing data has improved the detection and characterization of structural variants (SVs) in plant and animal genomes. Able to span across haplotypes, long reads allow phased, haplogenome assembly in highly outbred organisms such as forest trees. Eucalyptus tree species and interspecific hybrids are the most widely planted hardwood trees with F1 hybrids of Eucalyptus grandis and E. urophylla forming the bulk of fast-growing pulpwood plantations in subtropical regions. The extent of structural variation and its effect on interspecific hybridization is unknown in these trees. As a first step towards elucidating the extent of structural variation between the genomes of E. grandis and E. urophylla, we sequenced and assembled the haplogenomes contained in an F1 hybrid of the two species.

   Using Nanopore sequencing and a trio-binning approach, we assembled the separate haplogenomes (566.7 Mb and 544.5 Mb) to 98.0% BUSCO completion. High-density SNP genetic linkage maps of both parents allowed scaffolding of 88.0% of the haplogenome contigs into 11 pseudo-chromosomes (scaffold N50 of 43.8 Mb and 42.5 Mb for the E. grandis and E. urophylla haplogenomes, respectively). We identify 48,729 SVs between the two haplogenomes providing the first detailed insight into genome structural rearrangement in these species. The two haplogenomes have similar gene content, 35,572 and 33,915 functionally annotated genes, of which 34.7% are contained in genome rearrangements.

   Knowledge of SV and haplotype diversity in the two species will form the basis for understanding the genetic basis of hybrid superiority in these trees.

    

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4. A chromosome-level genome assembly and annotation of the desert horned lizard, Phrynosoma platyrhinos , provides insight into chromosomal rearrangements among reptiles

   https://doi.org/10.1093/gigascience/giab098  

   Koochekian, Nazila ; Ascanio, Alfredo ; Farleigh, Keaka ; Card, Daren C. ; Schield, Drew R. ; Castoe, Todd A. ; Jezkova, Tereza ( February 2022 , GigaScience)

   The increasing number of chromosome-level genome assemblies has advanced our knowledge and understanding of macroevolutionary processes. Here, we introduce the genome of the desert horned lizard, Phrynosoma platyrhinos, an iguanid lizard occupying extreme desert conditions of the American southwest. We conduct analysis of the chromosomal structure and composition of this species and compare these features across genomes of 12 other reptiles (5 species of lizards, 3 snakes, 3 turtles, and 1 bird).

   The desert horned lizard genome was sequenced using Illumina paired-end reads and assembled and scaffolded using Dovetail Genomics Hi-C and Chicago long-range contact data. The resulting genome assembly has a total length of 1,901.85 Mb, scaffold N50 length of 273.213 Mb, and includes 5,294 scaffolds. The chromosome-level assembly is composed of 6 macrochromosomes and 11 microchromosomes. A total of 20,764 genes were annotated in the assembly. GC content and gene density are higher for microchromosomes than macrochromosomes, while repeat element distributions show the opposite trend. Pathway analyses provide preliminary evidence that microchromosome and macrochromosome gene content are functionally distinct. Synteny analysis indicates that large microchromosome blocks are conserved among closely related species, whereas macrochromosomes show evidence of frequent fusion and fission events among reptiles, even between closely related species.

   Our results demonstrate dynamic karyotypic evolution across Reptilia, with frequent inferred splits, fusions, and rearrangements that have resulted in shuffling of chromosomal blocks between macrochromosomes and microchromosomes. Our analyses also provide new evidence for distinct gene content and chromosomal structure between microchromosomes and macrochromosomes within reptiles.

    

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5. The genome of Anoplarchus purpurescens (Stichaeidae) reflects its carnivorous diet

   https://doi.org/10.1007/s00438-023-02067-5  

   Le, Ninh ; Heras, Joseph ; Herrera, Michelle J. ; German, Donovan P. ; Crummett, Lisa T. ( September 2023 , Molecular Genetics and Genomics)

   Digestion is driven by digestive enzymes and digestive enzyme gene copy number can provide insights on the genomic underpinnings of dietary specialization. The “Adaptive Modulation Hypothesis” (AMH) proposes that digestive enzyme activity, which increases with increased gene copy number, should correlate with substrate quantity in the diet. To test the AMH and reveal some of the genetics of herbivory vs carnivory, we sequenced, assembled, and annotated the genome ofAnoplarchus purpurescens, a carnivorous prickleback fish in the family Stichaeidae, and compared the gene copy number for key digestive enzymes to that ofCebidichthys violaceus, a herbivorous fish from the same family. A highly contiguous genome assembly of high quality (N50 = 10.6 Mb) was produced forA. purpurescens, using combined long-read and short-read technology, with an estimated 33,842 protein-coding genes. The digestive enzymes that we examined include pancreatic α-amylase, carboxyl ester lipase, alanyl aminopeptidase, trypsin, and chymotrypsin.Anoplarchus purpurescenshad fewer copies of pancreatic α-amylase (carbohydrate digestion) thanC. violaceus(1 vs. 3 copies). Moreover, A. purpurescenshad one fewer copy of carboxyl ester lipase (plant lipid digestion) thanC. violaceus(4 vs. 5). We observed an expansion in copy number for several protein digestion genes inA. purpurescenscompared toC. violaceus, including trypsin (5 vs. 3) and total aminopeptidases (6 vs. 5). Collectively, these genomic differences coincide with measured digestive enzyme activities (phenotypes) in the two species and they support the AMH. Moreover, this genomic resource is now available to better understand fish biology and dietary specialization.

    

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