Evolution of the Parvalbumin Genes in Teleost Fishes after the Whole-Genome Duplication

Mukherjee, Subham; Bartoš, Oldřich; Zdeňková, Kamila; Hanák, Petr; Horká, Petra; Musilová, Zuzana

doi:10.3390/fishes6040070

Cited by 12 publications

(19 citation statements)

References 68 publications

(96 reference statements)

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“…Furthermore, this study also provided insight on the evolution of parvalbumin in vertebrates. Similar to the previous finding, we discovered three groups of parvalbumins in Teleost 23 . Based on the sequence homology with BLAST algorithm, we described one group as thymic CPV3-like subtype which reported to be found in lower vertebrates and related to oncomodulin (a type of β-parvalbumin) in mammals 24 .…”

Section: Discussionsupporting

confidence: 91%

Comparative Analysis of Asian Carps Parvalbumin Reveals the Evolutionary Divergence Pattern of a Major Fish Allergen

Xiong

Shi

et al. 2022

Preprint

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Background Asian carps are popular freshwater fish species in Hong Kong and served as an important protein source for infants. Grass carp parvalbumin was reported to have higher allergenicity than other commercially important fishes (salmon and cod) in terms of IgE reactivity. Objective To identify allergens in Asian carps and study the divergence pattern of allergens. Method Three complete Asian carps’ genomes were constructed by hybrid assembly approach. All the homologs of known and putative allergens were identified based on sequence homology at the genomic level. The gene structures, expression level and protein conformations of parvalbumin were revealed using bioinformatics tools. Results Parvalbumin is the major allergen in grass carp tested by indirect ELISA. Nine homologs of parvalbumin were identified in the genome of grass carp, in which Cid_PV2 exhibited highest sequence similarity to the reported group 1 allergen of grass carp, Cten i 1. Similarly, ten parvalbumin homologs were identified in the genome of bighead and black carp respectively, in which Mpi_PV7 and Hno_PV7 were identified as the putative allergenic homologs. The expression profile of parvalbumin revealed alternative usage of homologs in different tissues of Asian carps. Moreover, gene copy numbers of parvalbumin gradually expanded in bony fish and two gene clusters of parvalbumin were identified inside the genomes of Asian carps. Conclusion All the homologs of Asian carps’ parvalbumin were accurately identified and gene divergence contributed to the formation of allergenic homologs. Together with a comprehensive gene sequence profile of carps’ parvalbumin, those could be applied to achieve a more precise clinical diagnostic test and would ultimately assist the design of preventive treatment by immunotherapy of fish allergy.

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Section: Discussionsupporting

confidence: 91%

Comparative Analysis of Asian Carps Parvalbumin Reveals the Evolutionary Divergence Pattern of a Major Fish Allergen

Xiong

Shi

et al. 2022

Preprint

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“…Phylogenetic tree analyses readily distinguish ancient -parvalbumin and oncomodulin lineages that are represented in all clades of investigated jawed vertebrates (Figure 4 and Supplementary File S4). This agrees with findings by, for example, Modrell et al, 2016 [25], and Mukherjee et al, 2021 [26], who both named the oncomodulin lineage the "1" The tree is drawn to scale, with branch lengths measured in the number of substitutions per site. Clusters with teleost sequences (including sometimes also nonteleost sequences) are condensed; for a non-condensed tree and full descriptions see Supplementary File S4A.…”

Section: The Overall Phylogeny Of Parvalbumin Sequences In Jawed Vert...supporting

confidence: 87%

“…In teleost fish, five parvalbumin lineages can be readily distinguished by phylogenetic tree analysis (Figure 4 and Supplementary File S4): (1) the α-parvalbumins (pvalb6 and pvalb7); (2) the oncomodulins (pvalb8 and pvalb9); (3) the muscle parvalbumins pvalb1to-4; (4) pvalb5; and (5) pvalb10. These lineages were also observed in the phylogenetic tree analysis by Mukherjee et al, 2021 [26], who, like us, also found that phylogenetic tree analysis cannot properly distinguish between pvalb6 and pvalb7, between pvalb8 and pvalb9, and between pvalb1, -2, -3, and -4. This inability is probably caused by these molecules being generally well-conserved and having relatively few variable residues whose identities seem to somewhat "fluctuate around a conserved theme" rather than develop in a certain direction.…”

Section: The Parvalbumin Genes Map To Paralogous Regions That Derived...supporting

confidence: 82%

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Comprehensive Sequence Analysis of Parvalbumins in Fish and Their Comparison with Parvalbumins in Tetrapod Species

Dijkstra

Kondo

2022

Biology

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Parvalbumins are small molecules with important functions in Ca2+ signaling, but their sequence comparisons to date, especially in fish, have been relatively poor. We here, characterize sequence motifs that distinguish parvalbumin subfamilies across vertebrate species, as well as those that distinguish individual parvalbumins (orthologues) in fish, and map them to known parvalbumin structures. As already observed by others, all classes of jawed vertebrates possess parvalbumins of both the a-parvalbumin and oncomodulin subfamilies. However, we could not find convincing phylogenetic support for the common habit of classifying all non-a-parvalbumins together as “b-parvalbumins.” In teleost (modern bony) fish, we here distinguish parvalbumins 1-to-10, of which the gene copy number can differ between species. The genes for a-parvalbumins (pvalb6 and pvalb7) and oncomodulins (pvalb8 and pvalb9) are well conserved between teleost species, but considerable variation is observed in their copy numbers of the non-a/non-oncomodulin genes pvalb1-to-5 and pvalb10. Teleost parvalbumins 1-to-4 are hardly distinguishable from each other and are highly expressed in muscle, and described allergens belong to this subfamily. However, in some fish species a-parvalbumin expression is also high in muscle. Pvalb5 and pvalb10 molecules form distinct lineages, the latter even predating the origin of teleosts, but have been lost in some teleost species. The present study aspires to be a frame of reference for future studies trying to compare different parvalbumins.

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“…Parvalbumin (PVALB ) , a small calcium‐binding protein present in the muscles of vertebrates, is a known major fish allergen (Kuehn et al, 2014) and most fish allergic individuals have anti‐PVALB IgE. There are three main gene types (pvalb‐α, pvalb‐β1 , and pvalb‐β2) that appear highly diverse in teleost (Mukherjee et al, 2021). In leopard coral grouper ( Plectropomus Leopardus ), PVALB is among the highest gene expressed in muscle (Mekuchi et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

α‐2‐macroglobulin, an infection‐resistant biomarker in Epinephelus fuscoguttatus (Forsskål, 1775)

Ibrahim

Webb

Nazarudin

et al. 2022

Aquaculture Research

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Grouper farming is a billion-dollar industry with increasing global demand for its organoleptic qualities and it is also a source of food security for developing countries. The high economic value of the fish has caused the rapid expansion of grouper aquaculture. Elevated temperatures in tropical and subtropical regions promote rapid growth, while fish robustness enables it to withstand high stocking densities. However, the industry still relies on wild-caught fry and fingerlings of brown-marbled grouper for stocking. Therefore,

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Evolution of the Parvalbumin Genes in Teleost Fishes after the Whole-Genome Duplication

Cited by 12 publications

References 68 publications

Comparative Analysis of Asian Carps Parvalbumin Reveals the Evolutionary Divergence Pattern of a Major Fish Allergen

Comparative Analysis of Asian Carps Parvalbumin Reveals the Evolutionary Divergence Pattern of a Major Fish Allergen

Comprehensive Sequence Analysis of Parvalbumins in Fish and Their Comparison with Parvalbumins in Tetrapod Species

α‐2‐macroglobulin, an infection‐resistant biomarker in Epinephelus fuscoguttatus (Forsskål, 1775)

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