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The origin of bmp16, a novel Bmp2/4 relative, retained in teleost fish genomes

Feiner, Nathalie LU ; Begemann, Gerrit ; Renz, Adina ; Meyer, Axel and Kuraku, Shigehiro (2009) In BMC Evolutionary Biology 9(277).
Abstract
Background: Whole genome sequences have allowed us to have an overview of the evolution of gene repertoires. The target of the present study, the TGFβ superfamily, contains many genes involved in vertebrate development, and provides an ideal system to explore the relationships between evolution of gene repertoires and that of developmental programs.
Results: As a result of a bioinformatic survey of sequenced vertebrate genomes, we identified an uncharacterized member of the TGFβ superfamily, designated bmp16, which is confined to teleost fish species. Our molecular phylogenetic study revealed a high affinity of bmp16 to the Bmp2/4 subfamily. Importantly, further analyses based on the maximum-likelihood method unambiguously
ruled... (More)
Background: Whole genome sequences have allowed us to have an overview of the evolution of gene repertoires. The target of the present study, the TGFβ superfamily, contains many genes involved in vertebrate development, and provides an ideal system to explore the relationships between evolution of gene repertoires and that of developmental programs.
Results: As a result of a bioinformatic survey of sequenced vertebrate genomes, we identified an uncharacterized member of the TGFβ superfamily, designated bmp16, which is confined to teleost fish species. Our molecular phylogenetic study revealed a high affinity of bmp16 to the Bmp2/4 subfamily. Importantly, further analyses based on the maximum-likelihood method unambiguously
ruled out the possibility that this teleost-specific gene is a product of teleost-specific genome duplication. This suggests that the absence of a bmp16 ortholog in tetrapods is due to a secondary loss. In situ hybridization showed embryonic expression of the zebrafish bmp16 in the developing
swim bladder, heart, tail bud, and ectoderm of pectoral and median fin folds in pharyngula stages, as well as gut-associated expression in 5-day embryos.
Conclusion: Comparisons of expression patterns revealed (1) the redundancy of bmp16 expression with its homologs in presumably plesiomorphic expression domains, such as the fin fold, heart, and tail bud, which might have permitted its loss in the tetrapod lineage, and (2) the loss of craniofacial expression and gain of swim bladder expression of bmp16 after the gene duplication between Bmp2, -4 and -16. Our findings highlight the importance of documenting secondary
changes of gene repertoires and expression patterns in other gene families. (Less)
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author
; ; ; and
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Molecular Phylogenetic Analysis, Gene Repertoire, Bmp16 Expression, Bmp16 Gene
in
BMC Evolutionary Biology
volume
9
issue
277
pages
14 pages
publisher
BioMed Central (BMC)
external identifiers
  • scopus:74349086025
ISSN
1471-2148
DOI
10.1186/1471-2148-9-277
language
English
LU publication?
no
id
e7075ff5-fd8b-45cd-bb09-78b35d7903d9
date added to LUP
2018-05-22 21:27:09
date last changed
2022-04-25 07:30:34
@article{e7075ff5-fd8b-45cd-bb09-78b35d7903d9,
  abstract     = {{Background: Whole genome sequences have allowed us to have an overview of the evolution of gene repertoires. The target of the present study, the TGFβ superfamily, contains many genes involved in vertebrate development, and provides an ideal system to explore the relationships between evolution of gene repertoires and that of developmental programs.<br/>Results: As a result of a bioinformatic survey of sequenced vertebrate genomes, we identified an uncharacterized member of the TGFβ superfamily, designated bmp16, which is confined to teleost fish species. Our molecular phylogenetic study revealed a high affinity of bmp16 to the Bmp2/4 subfamily. Importantly, further analyses based on the maximum-likelihood method unambiguously<br/>ruled out the possibility that this teleost-specific gene is a product of teleost-specific genome duplication. This suggests that the absence of a bmp16 ortholog in tetrapods is due to a secondary loss. In situ hybridization showed embryonic expression of the zebrafish bmp16 in the developing<br/>swim bladder, heart, tail bud, and ectoderm of pectoral and median fin folds in pharyngula stages, as well as gut-associated expression in 5-day embryos.<br/>Conclusion: Comparisons of expression patterns revealed (1) the redundancy of bmp16 expression with its homologs in presumably plesiomorphic expression domains, such as the fin fold, heart, and tail bud, which might have permitted its loss in the tetrapod lineage, and (2) the loss of craniofacial expression and gain of swim bladder expression of bmp16 after the gene duplication between Bmp2, -4 and -16. Our findings highlight the importance of documenting secondary<br/>changes of gene repertoires and expression patterns in other gene families.}},
  author       = {{Feiner, Nathalie and Begemann, Gerrit and Renz, Adina and Meyer, Axel and Kuraku, Shigehiro}},
  issn         = {{1471-2148}},
  keywords     = {{Molecular Phylogenetic Analysis; Gene Repertoire; Bmp16 Expression; Bmp16 Gene}},
  language     = {{eng}},
  month        = {{12}},
  number       = {{277}},
  publisher    = {{BioMed Central (BMC)}},
  series       = {{BMC Evolutionary Biology}},
  title        = {{The origin of bmp16, a novel Bmp2/4 relative, retained in teleost fish genomes}},
  url          = {{http://dx.doi.org/10.1186/1471-2148-9-277}},
  doi          = {{10.1186/1471-2148-9-277}},
  volume       = {{9}},
  year         = {{2009}},
}