Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies

Background Based on an initial collecting of database sequences from the gap junction protein gene family (also called connexin genes) in a few teleosts, the naming of these sequences appeared variable. The reasons could be (i) that the structure in this family is variable across teleosts, or (ii) u...

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Published in:BMC Genomics
Main Authors: Mikalsen, Svein-Ole, Tausen, Marni, Kongsstovu, Sunnvor I.
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Connexins
Genome duplication
Mammals
Nomenclature
Ohnologs
Orthologs
Paralogs
Phylogenetic trees
Teleosts
DRAFT GENOME
JAPANESE EEL
SEQUENCE
ANNOTATION
EVOLUTION
FAMILY
ASTROCYTES
PROTEIN
FISHES
atlantic cod
Online Access:https://pure.au.dk/portal/da/publications/phylogeny-of-teleost-connexins-reveals-highly-inconsistent-intra-and-interspecies-use-of-nomenclature-and-misassemblies-in-recent-teleost-chromosome-assemblies(8b9a7dde-682e-4114-b026-a72f1476543e).html
https://doi.org/10.1186/s12864-020-6620-2
id ftuniaarhuspubl:oai:pure.atira.dk:publications/8b9a7dde-682e-4114-b026-a72f1476543e
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/8b9a7dde-682e-4114-b026-a72f1476543e 2023-05-15T15:27:47+02:00 Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies Mikalsen, Svein-Ole Tausen, Marni Kongsstovu, Sunnvor I. 2020-03 https://pure.au.dk/portal/da/publications/phylogeny-of-teleost-connexins-reveals-highly-inconsistent-intra-and-interspecies-use-of-nomenclature-and-misassemblies-in-recent-teleost-chromosome-assemblies(8b9a7dde-682e-4114-b026-a72f1476543e).html https://doi.org/10.1186/s12864-020-6620-2 eng eng info:eu-repo/semantics/restrictedAccess Mikalsen , S-O , Tausen , M & Kongsstovu , S I 2020 , ' Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies ' , BMC Genomics , vol. 21 , no. 1 , 223 . https://doi.org/10.1186/s12864-020-6620-2 Connexins Genome duplication Mammals Nomenclature Ohnologs Orthologs Paralogs Phylogenetic trees Teleosts DRAFT GENOME JAPANESE EEL SEQUENCE ANNOTATION EVOLUTION FAMILY ASTROCYTES PROTEIN FISHES article 2020 ftuniaarhuspubl https://doi.org/10.1186/s12864-020-6620-2 2021-06-09T22:44:48Z Background Based on an initial collecting of database sequences from the gap junction protein gene family (also called connexin genes) in a few teleosts, the naming of these sequences appeared variable. The reasons could be (i) that the structure in this family is variable across teleosts, or (ii) unfortunate naming. Rather clear rules for the naming of genes in fish and mammals have been outlined by nomenclature committees, including the naming of orthologous and ohnologous genes. We therefore analyzed the connexin gene family in teleosts in more detail. We covered the range of divergence times in teleosts (eel, Atlantic herring, zebrafish, Atlantic cod, three-spined stickleback, Japanese pufferfish and spotted pufferfish; listed from early divergence to late divergence). Results The gene family pattern of connexin genes is similar across the analyzed teleosts. However, (i) several nomenclature systems are used, (ii) specific orthologous groups contain genes that are named differently in different species, (iii) several distinct genes have the same name in a species, and (iv) some genes have incorrect names. The latter includes a human connexin pseudogene, claimed as GJA4P, but which in reality is Cx39.2P (a delta subfamily gene often called GJD2like). We point out the ohnologous pairs of genes in teleosts, and we suggest a more consistent nomenclature following the outlined rules from the nomenclature committees. We further show that connexin sequences can indicate some errors in two high-quality chromosome assemblies that became available very recently. Conclusions Minimal consistency exists in the present practice of naming teleost connexin genes. A consistent and unified nomenclature would be an advantage for future automatic annotations and would make various types of subsequent genetic analyses easier. Additionally, roughly 5% of the connexin sequences point out misassemblies in the new high-quality chromosome assemblies from herring and cod. Article in Journal/Newspaper atlantic cod Aarhus University: Research BMC Genomics 21 1
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic Connexins
Genome duplication
Mammals
Nomenclature
Ohnologs
Orthologs
Paralogs
Phylogenetic trees
Teleosts
DRAFT GENOME
JAPANESE EEL
SEQUENCE
ANNOTATION
EVOLUTION
FAMILY
ASTROCYTES
PROTEIN
FISHES
spellingShingle Connexins
Genome duplication
Mammals
Nomenclature
Ohnologs
Orthologs
Paralogs
Phylogenetic trees
Teleosts
DRAFT GENOME
JAPANESE EEL
SEQUENCE
ANNOTATION
EVOLUTION
FAMILY
ASTROCYTES
PROTEIN
FISHES
Mikalsen, Svein-Ole
Tausen, Marni
Kongsstovu, Sunnvor I.
Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
topic_facet Connexins
Genome duplication
Mammals
Nomenclature
Ohnologs
Orthologs
Paralogs
Phylogenetic trees
Teleosts
DRAFT GENOME
JAPANESE EEL
SEQUENCE
ANNOTATION
EVOLUTION
FAMILY
ASTROCYTES
PROTEIN
FISHES
description Background Based on an initial collecting of database sequences from the gap junction protein gene family (also called connexin genes) in a few teleosts, the naming of these sequences appeared variable. The reasons could be (i) that the structure in this family is variable across teleosts, or (ii) unfortunate naming. Rather clear rules for the naming of genes in fish and mammals have been outlined by nomenclature committees, including the naming of orthologous and ohnologous genes. We therefore analyzed the connexin gene family in teleosts in more detail. We covered the range of divergence times in teleosts (eel, Atlantic herring, zebrafish, Atlantic cod, three-spined stickleback, Japanese pufferfish and spotted pufferfish; listed from early divergence to late divergence). Results The gene family pattern of connexin genes is similar across the analyzed teleosts. However, (i) several nomenclature systems are used, (ii) specific orthologous groups contain genes that are named differently in different species, (iii) several distinct genes have the same name in a species, and (iv) some genes have incorrect names. The latter includes a human connexin pseudogene, claimed as GJA4P, but which in reality is Cx39.2P (a delta subfamily gene often called GJD2like). We point out the ohnologous pairs of genes in teleosts, and we suggest a more consistent nomenclature following the outlined rules from the nomenclature committees. We further show that connexin sequences can indicate some errors in two high-quality chromosome assemblies that became available very recently. Conclusions Minimal consistency exists in the present practice of naming teleost connexin genes. A consistent and unified nomenclature would be an advantage for future automatic annotations and would make various types of subsequent genetic analyses easier. Additionally, roughly 5% of the connexin sequences point out misassemblies in the new high-quality chromosome assemblies from herring and cod.
format Article in Journal/Newspaper
author Mikalsen, Svein-Ole
Tausen, Marni
Kongsstovu, Sunnvor I.
author_facet Mikalsen, Svein-Ole
Tausen, Marni
Kongsstovu, Sunnvor I.
author_sort Mikalsen, Svein-Ole
title Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
title_short Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
title_full Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
title_fullStr Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
title_full_unstemmed Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
title_sort phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies
publishDate 2020
url https://pure.au.dk/portal/da/publications/phylogeny-of-teleost-connexins-reveals-highly-inconsistent-intra-and-interspecies-use-of-nomenclature-and-misassemblies-in-recent-teleost-chromosome-assemblies(8b9a7dde-682e-4114-b026-a72f1476543e).html
https://doi.org/10.1186/s12864-020-6620-2
genre atlantic cod
genre_facet atlantic cod
op_source Mikalsen , S-O , Tausen , M & Kongsstovu , S I 2020 , ' Phylogeny of teleost connexins reveals highly inconsistent intra- and interspecies use of nomenclature and misassemblies in recent teleost chromosome assemblies ' , BMC Genomics , vol. 21 , no. 1 , 223 . https://doi.org/10.1186/s12864-020-6620-2
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1186/s12864-020-6620-2
container_title BMC Genomics
container_volume 21
container_issue 1
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