Ancestral whole-genome duplication in the marine chelicerate horseshoe crabs

Kenny, Nathan J.; Chan, Konan; Nong, Wenyan; Qu, Zhe; Maeso, Ignacio; Yip, Ho Yin; Chan, Ting-Fung; Kwan, Hoi Shan; Holland, Peter W.H.; Chu, Ka Hou; Hui, Jerome H. L.

doi:10.1038/hdy.2015.89

Cited by 118 publications

(133 citation statements)

References 80 publications

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“…We also analysed four different Daphnia magna transcripts of inotocin receptors, which are probably the result of alternative splicing since these sequences are almost identical except for minor deletions/insertions in intracellular loop 3 as well transmembrane domains 3 and 5. The presence of multiple copies in some of the species could be explained by whole genome or large scale duplication events, which have been reported for Limulus polyphemus 2627, Ixodes scapularis 28, Calanus finmarchicus 29 and Strigamia maritima 30. Local and whole genome duplication and deletion events during vertebrate evolution led to different number of gene copies (two or more) of oxytocin/vasopressin receptors and precursors within distinct vertebrate species3132.…”

Section: Discussionmentioning

confidence: 89%

Global map of oxytocin/vasopressin-like neuropeptide signalling in insects

Liutkevičiūtė

Koehbach

Eder

et al. 2016

Sci Rep

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Oxytocin and vasopressin mediate a range of physiological functions that are important for osmoregulation, reproduction, social behaviour, memory and learning. The origin of this signalling system is thought to date back ~600 million years. Oxytocin/vasopressin-like peptides have been identified in several invertebrate species and they appear to be functionally related across the entire animal kingdom. There is little information available about the biology of this peptide G protein-coupled receptor signalling system in insects. Recently over 200 insect genome/transcriptome datasets were released allowing investigation of the molecular structure and phylogenetic distribution of the insect oxytocin/vasopressin orthologue – inotocin peptides and their receptors. The signalling system is present in early arthropods and representatives of some early-diverging lineages. However, Trichoptera, Lepidoptera, Siphonaptera, Mecoptera and Diptera, lack the presence of inotocin genes, which suggests the peptide-receptor system was probably lost in their common ancestor ~280 million-years-ago. In addition we detected several losses of the inotocin signalling system in Hemiptera (white flies, scale insects and aphids), and the complete absence in spiders (Chelicerata). This unique insight into evolutionarily patterns and sequence diversity of neuroendocrine hormones will provide opportunities to elucidate the physiology of the inotocin signalling system in one of the largest group of animals.

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Section: Discussionmentioning

confidence: 89%

Global map of oxytocin/vasopressin-like neuropeptide signalling in insects

Liutkevičiūtė

Koehbach

Eder

et al. 2016

Sci Rep

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“…Both the busco and mapping rate tests showed that this assembled genome of T. tridentatus is a high quality reference genome of horseshoe crab. In addition, the quality of our assembled chromosome‐level genome is obviously higher than the released horseshoe crab versions (Supporting Information Table S6; Kenny et al, ; Nossa et al, ).…”

Section: Resultsmentioning

confidence: 99%

Chromosomal level reference genome of Tachypleus tridentatus provides insights into evolution and adaptation of horseshoe crabs

Gong

Fan

Ren

et al. 2019

Molecular Ecology Resources

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Horseshoe crabs including Tachypleus tridentatus are a group of marine arthropods and living fossil species which have existed on the earth for ~500 million years. However, the genetic mechanisms underlying their unique adaptive ability are still unclear. Here, we assembled the first chromosome‐level T. tridentatus genome, and proved that this genome is of high quality with contig N50 1.69 Mb. By comparison with other arthropods, some gene families of T. tridentatus experienced significant expansion, which are related to several signaling pathways, endonuclease activities, and metabolic processes. Based on the results of comparative analysis of genomics and 27 transcriptomes from nine tissues, we found that the expanded Dscam genes are located at key hub positions of immune network. Furthermore, the Dscam genes showed higher levels of expression in the yellow connective tissue (the birthplace of blood cells with strong differentiation capability) than the other eight tissues. Besides, the Dscam genes are positively correlated with the expression of the core immunity gene, clotting factor B, which is involved in the coagulation cascade reaction. The effective and unusual immune ability endowed by the expansion and expression of Dscam genes in the horseshoe crab may be a factor that makes the species have a strong environmental adaptability within ~500 million years. The high quality chromosome level genome of a horseshoe crab and unique genomic features reported in this study provide important data resources for future studies on the evolution of marine ecological systems.

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“…WGD occurred twice at the base of vertebrates [13,14], once in the stem lineage of teleost fish [15][16][17], one or more times in cyprinid fish [18], once in salmonid fish [19], two or more times in chelicerates [20,21] and once in rotifers [22]; undoubtedly more cases will be discovered. However, a clear finding is that gene loss is extensive after WGD, possibly reaching as high as 85% of duplicates in some cases [23].…”

Section: Gene Numbers: Up and Down In Evolutionmentioning

confidence: 99%

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

Holland

Marlétaz

Maeso

et al. 2017

Phil. Trans. R. Soc. B

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One contribution of 17 to a theme issue 'Evodevo in the genomics era, and the origins of morphological diversity'. Gene duplications and gene losses have been frequent events in the evolution of animal genomes, with the balance between these two dynamic processes contributing to major differences in gene number between species. After gene duplication, it is common for both daughter genes to accumulate sequence change at approximately equal rates. In some cases, however, the accumulation of sequence change is highly uneven with one copy radically diverging from its paralogue. Such 'asymmetric evolution' seems commoner after tandem gene duplication than after whole-genome duplication, and can generate substantially novel genes. We describe examples of asymmetric evolution in duplicated homeobox genes of moths, molluscs and mammals, in each case generating new homeobox genes that were recruited to novel developmental roles. The prevalence of asymmetric divergence of gene duplicates has been underappreciated, in part, because the origin of highly divergent genes can be difficult to resolve using standard phylogenetic methods.This article is part of the themed issue 'Evo-devo in the genomics era, and the origins of morphological diversity'.

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Ancestral whole-genome duplication in the marine chelicerate horseshoe crabs

Cited by 118 publications

References 80 publications

Global map of oxytocin/vasopressin-like neuropeptide signalling in insects

Global map of oxytocin/vasopressin-like neuropeptide signalling in insects

Chromosomal level reference genome of Tachypleus tridentatus provides insights into evolution and adaptation of horseshoe crabs

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

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