The complete mitochondrial genome of the black surfperch, Embiotoca jacksoni: Selection and substitution rates among surfperches (Embiotocidae)

Longo, Gary C.; O’Connell, Brendan; Green, Edward; Bernardi, Giacomo

doi:10.1016/j.margen.2016.03.006

Cited by 3 publications

(2 citation statements)

References 26 publications

(30 reference statements)

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“…The base composition of the final assembly version is A = 34.62%, C = 26.37%, G = 12.65%, T = 26.34%, and consists of 22 unique transfer RNAs and 13 protein coding genes. This was identical in size and organization to a previously published mitochondrial genome ( Longo et al 2016 ). The two genomes differed by 15 base pair substitutions, which included 12 transitions and 3 transversions.…”

Section: Resultssupporting

confidence: 63%

Reference Genome of the Black Surfperch,Embiotoca jacksoni(Embiotocidae, Perciformes), a California Kelp Forest Fish That Lacks a Pelagic Larval Stage

Bernardi

Toy

Escalona

et al. 2022

Journal of Heredity

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Surfperches (Family Embiotocidae) are viviparous temperate reef fishes that brood their young. This life history trait translates into limited dispersal, strong population structure, and an unusually strong potential for local adaptation in a marine fish. As part of the California Conservation Genomics Project (CCGP), we sequenced the genome of the Black Surfperch, Embiotoca jacksoni, to establish a genomic model for understanding phylogeographic patterns of marine organisms in California. These patterns, in turn, may inform the design of marine protected areas using dispersal models based on genomic data. The genome of E. jacksoni is typical of marine fishes at less than 1Gb (genome size = 635 Mb), and our assembly is near-chromosome level (contig N50 = 6.5Mb, scaffold N50 = 15.5 Mb, BUSCO = 98.1%). Within the context of the CCGP, the genome will be used as a reference for future whole genome resequencing projects aimed at enhancing our knowledge of the population structure of the species, and efficacy of Marine Protected Areas across the state.

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Section: Resultssupporting

confidence: 63%

Reference Genome of the Black Surfperch,Embiotoca jacksoni(Embiotocidae, Perciformes), a California Kelp Forest Fish That Lacks a Pelagic Larval Stage

Bernardi

Toy

Escalona

et al. 2022

Journal of Heredity

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“…The generated consensus sequence was then used as a scaffold on which to map the paired short-read data for polishing, again using the Geneious mapper. This consensus sequence was then annotated using E. jacksoni reference annotations from GenBank accession NC_029362.1 ( Longo et al 2016 ) to identify potential spurious frameshift mutations and stop codons introduced by sequencing and/or assembly errors. We identified a total of 3 stop codons, one each in the coding sequences of the ND2, COI, and ND4 genes, which were all caused by incorrect calling of the length of mononucleotide repeats.…”

Section: Methodsmentioning

confidence: 99%

A high-quality reference genome of the kelp surfperch, Brachyistius frenatus (Embiotocidae), a wide-ranging Eastern Pacific reef fish with no pelagic larval stage

Toy

Bernardi

2023

Journal of Heredity

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The surfperches (family Embiotocidae) are a unique group of mostly marine fishes whose phylogenetic position within the Ovalentaria clade (Percomorpha) is still unresolved. As a result of their viviparity and lack of a dispersive larval stage, surfperches are an excellent model for the study of speciation, gene flow, and local adaptation in the ocean. They are also the target of an immensely popular recreational fishery. Very few high-quality molecular resources, however, are available for this group and only for a single species. Here we describe a highly complete reference genome for the kelp surfperch, Brachyistius frenatus, assembled using a combination of short read (Illumina, ~47x coverage) and long read (Oxford Nanopore Technologies, ~27x coverage) sequencing. The 596 Mb assembly has a completeness level of 98.1% (BUSCO), a contig N50 of 2.6 Mb (n = 56), and a contig N90 of 406.6 Kb (n = 293). Comparative analysis revealed a high level of synteny between B. frenatus and its close relative, Embiotoca jacksoni. This assembly will serve as a valuable molecular resource upon which future evolutionary dynamics research will build, such as the investigation of local adaptation and the genomic potential for climate adaptation in wild populations.

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Comparative mitogenomic analysis of three species of periwinkles: Littorina fabalis, L. obtusata and L. saxatilis

et al. 2017

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The flat periwinkles, Littorina fabalis and L. obtusata, offer an interesting system for local adaptation and ecological speciation studies. In order to provide genomic resources for these species, we sequenced their mitogenomes together with that of the rough periwinkle L. saxatilis by means of next-generation sequencing technologies. The three mitogenomes present the typical repertoire of 13 protein-coding genes, 22 transfer RNA genes, two ribosomal RNA genes and a putative control region. Although the latter could not be fully recovered in flat periwinkles using short-reads due to a highly repetitive fragment, in L. saxatilis this problem was overcome with additional long-reads and we were able to assemble the complete mitogenome. Both gene order and nucleotide composition are similar between the three species as well as compared to other Littorinimorpha. A large variance in divergence was observed across mitochondrial regions, with six- to ten-fold difference between the highest and the lowest divergence rates. Based on nucleotide changes on the whole molecule and assuming a molecular clock, L. fabalis and L. obtusata started to diverge around 0.8 Mya (0.4-1.1 Mya). The evolution of the mitochondrial protein-coding genes in the three Littorina species appears mainly influenced by purifying selection as revealed by phylogenetic tests based on d/d ratios that did not detect any evidence for positive selection, although some caution is required given the limited power of the dataset and the implemented approaches.

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The complete mitochondrial genome of the black surfperch, Embiotoca jacksoni: Selection and substitution rates among surfperches (Embiotocidae)

Cited by 3 publications

References 26 publications

Reference Genome of the Black Surfperch,Embiotoca jacksoni(Embiotocidae, Perciformes), a California Kelp Forest Fish That Lacks a Pelagic Larval Stage

Reference Genome of the Black Surfperch,Embiotoca jacksoni(Embiotocidae, Perciformes), a California Kelp Forest Fish That Lacks a Pelagic Larval Stage

A high-quality reference genome of the kelp surfperch, Brachyistius frenatus (Embiotocidae), a wide-ranging Eastern Pacific reef fish with no pelagic larval stage

Comparative mitogenomic analysis of three species of periwinkles: Littorina fabalis, L. obtusata and L. saxatilis

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