Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci

Background The two homologous iron-binding lobes of transferrins are thought to have evolved by gene duplication of an ancestral monolobal form, but any conserved synteny between bilobal and monolobal transferrin loci remains unexplored. The important role played by transferrin in the resistance to...

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Published in:BMC Genetics
Main Authors: Andersen, Øivind, De Rosa, Maria C, Pirolli, Davide, Tooming-Klunderud, Ave, Petersen, Petra E, André, Carl
Format: Article in Journal/Newspaper
Language:English
Published: 2011
Subjects:
atlantic cod
Gadus morhua
Online Access:http://hdl.handle.net/10852/46785
http://urn.nb.no/URN:NBN:no-50967
https://doi.org/10.1186/1471-2156-12-51
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spelling ftoslouniv:oai:www.duo.uio.no:10852/46785 2023-05-15T15:27:10+02:00 Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci Andersen, Øivind De Rosa, Maria C Pirolli, Davide Tooming-Klunderud, Ave Petersen, Petra E André, Carl 2011 http://hdl.handle.net/10852/46785 http://urn.nb.no/URN:NBN:no-50967 https://doi.org/10.1186/1471-2156-12-51 eng eng http://urn.nb.no/URN:NBN:no-50967 BMC Genetics. 2011 May 25;12(1):51 http://hdl.handle.net/10852/46785 http://dx.doi.org/10.1186/1471-2156-12-51 URN:NBN:no-50967 Fulltext https://www.duo.uio.no/bitstream/handle/10852/46785/1/12863_2011_Article_913.pdf Andersen et al; licensee BioMed Central Ltd. Attribution 2.0 Generic http://creativecommons.org/licenses/by/2.0/ CC-BY Journal article Tidsskriftartikkel Peer reviewed PublishedVersion 2011 ftoslouniv https://doi.org/10.1186/1471-2156-12-51 2020-06-21T08:48:56Z Background The two homologous iron-binding lobes of transferrins are thought to have evolved by gene duplication of an ancestral monolobal form, but any conserved synteny between bilobal and monolobal transferrin loci remains unexplored. The important role played by transferrin in the resistance to invading pathogens makes this polymorphic gene a highly valuable candidate for studying adaptive divergence among local populations. Results The Atlantic cod genome was shown to harbour two tandem duplicated serum transferrin genes (Tf1, Tf2), a melanotransferrin gene (MTf), and a monolobal transferrin gene (Omp). Whereas Tf1 and Tf2 were differentially expressed in liver and brain, the Omp transcript was restricted to the otoliths. Fish, chicken and mammals showed highly conserved syntenic regions in which monolobal and bilobal transferrins reside, but contrasting with tetrapods, the fish transferrin genes are positioned on three different linkage groups. Sequence alignment of cod Tf1 cDNAs from Northeast (NE) and Northwest (NW) Atlantic populations revealed 22 single nucleotide polymorphisms (SNP) causing the replacement of 16 amino acids, including eight surface residues revealed by the modelled 3D-structures, that might influence the binding of pathogens for removal of iron. SNP analysis of a total of 375 individuals from 14 trans-Atlantic populations showed that the Tf1-NE variant was almost fixed in the Baltic cod and predominated in the other NE Atlantic populations, whereas the NW Atlantic populations were more heterozygous and showed high frequencies of the Tf-NW SNP alleles. Conclusions The highly conserved synteny between fish and tetrapod transferrin loci infers that the fusion of tandem duplicated Omp-like genes gave rise to the modern transferrins. The multiple nonsynonymous substitutions in cod Tf1 with putative structural effects, together with highly divergent allele frequencies among different cod populations, strongly suggest evidence for positive selection and local adaptation in trans-Atlantic cod populations. Article in Journal/Newspaper atlantic cod Gadus morhua Universitet i Oslo: Digitale utgivelser ved UiO (DUO) BMC Genetics 12 1 51
institution Open Polar
collection Universitet i Oslo: Digitale utgivelser ved UiO (DUO)
op_collection_id ftoslouniv
language English
description Background The two homologous iron-binding lobes of transferrins are thought to have evolved by gene duplication of an ancestral monolobal form, but any conserved synteny between bilobal and monolobal transferrin loci remains unexplored. The important role played by transferrin in the resistance to invading pathogens makes this polymorphic gene a highly valuable candidate for studying adaptive divergence among local populations. Results The Atlantic cod genome was shown to harbour two tandem duplicated serum transferrin genes (Tf1, Tf2), a melanotransferrin gene (MTf), and a monolobal transferrin gene (Omp). Whereas Tf1 and Tf2 were differentially expressed in liver and brain, the Omp transcript was restricted to the otoliths. Fish, chicken and mammals showed highly conserved syntenic regions in which monolobal and bilobal transferrins reside, but contrasting with tetrapods, the fish transferrin genes are positioned on three different linkage groups. Sequence alignment of cod Tf1 cDNAs from Northeast (NE) and Northwest (NW) Atlantic populations revealed 22 single nucleotide polymorphisms (SNP) causing the replacement of 16 amino acids, including eight surface residues revealed by the modelled 3D-structures, that might influence the binding of pathogens for removal of iron. SNP analysis of a total of 375 individuals from 14 trans-Atlantic populations showed that the Tf1-NE variant was almost fixed in the Baltic cod and predominated in the other NE Atlantic populations, whereas the NW Atlantic populations were more heterozygous and showed high frequencies of the Tf-NW SNP alleles. Conclusions The highly conserved synteny between fish and tetrapod transferrin loci infers that the fusion of tandem duplicated Omp-like genes gave rise to the modern transferrins. The multiple nonsynonymous substitutions in cod Tf1 with putative structural effects, together with highly divergent allele frequencies among different cod populations, strongly suggest evidence for positive selection and local adaptation in trans-Atlantic cod populations.
format Article in Journal/Newspaper
author Andersen, Øivind
De Rosa, Maria C
Pirolli, Davide
Tooming-Klunderud, Ave
Petersen, Petra E
André, Carl
spellingShingle Andersen, Øivind
De Rosa, Maria C
Pirolli, Davide
Tooming-Klunderud, Ave
Petersen, Petra E
André, Carl
Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
author_facet Andersen, Øivind
De Rosa, Maria C
Pirolli, Davide
Tooming-Klunderud, Ave
Petersen, Petra E
André, Carl
author_sort Andersen, Øivind
title Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
title_short Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
title_full Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
title_fullStr Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
title_full_unstemmed Polymorphism, selection and tandem duplication of transferrin genes in Atlantic cod (Gadus morhua) - Conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
title_sort polymorphism, selection and tandem duplication of transferrin genes in atlantic cod (gadus morhua) - conserved synteny between fish monolobal and tetrapod bilobal transferrin loci
publishDate 2011
url http://hdl.handle.net/10852/46785
http://urn.nb.no/URN:NBN:no-50967
https://doi.org/10.1186/1471-2156-12-51
genre atlantic cod
Gadus morhua
genre_facet atlantic cod
Gadus morhua
op_relation http://urn.nb.no/URN:NBN:no-50967
BMC Genetics. 2011 May 25;12(1):51
http://hdl.handle.net/10852/46785
http://dx.doi.org/10.1186/1471-2156-12-51
URN:NBN:no-50967
Fulltext https://www.duo.uio.no/bitstream/handle/10852/46785/1/12863_2011_Article_913.pdf
op_rights Andersen et al; licensee BioMed Central Ltd.
Attribution 2.0 Generic
http://creativecommons.org/licenses/by/2.0/
op_rightsnorm CC-BY
op_doi https://doi.org/10.1186/1471-2156-12-51
container_title BMC Genetics
container_volume 12
container_issue 1
container_start_page 51
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