Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish
<p>Abstract</p> <p>Background</p> <p>Cichlid fishes have undergone rapid, expansive evolutionary radiations that are manifested in the diversification of their trophic morphologies, tooth patterning and coloration. Understanding the molecular mechanisms that underlie th...
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| Series: | EvoDevo |
| Online Access: | http://www.evodevojournal.com/content/2/1/1 |
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doaj-102832ddaef14fa2ad463bd91b3edcb02020-11-25T00:33:43ZengBMCEvoDevo2041-91392011-01-0121110.1186/2041-9139-2-1Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fishRenz Adina JGunter Helen MFischer Jan MFQiu HuanMeyer AxelKuraku Shigehiro<p>Abstract</p> <p>Background</p> <p>Cichlid fishes have undergone rapid, expansive evolutionary radiations that are manifested in the diversification of their trophic morphologies, tooth patterning and coloration. Understanding the molecular mechanisms that underlie the cichlids' unique patterns of evolution requires a thorough examination of genes that pattern the neural crest, from which these diverse phenotypes are derived. Among those genes, the homeobox-containing <it>Dlx </it>gene family is of particular interest since it is involved in the patterning of the brain, jaws and teeth.</p> <p>Results</p> <p>In this study, we characterized the <it>dlx </it>genes of an African cichlid fish, <it>Astatotilapia burtoni</it>, to provide a baseline to later allow cross-species comparison within Cichlidae. We identified seven <it>dlx </it>paralogs (<it>dlx1a</it>, <it>-2a</it>, <it>-4a</it>, <it>-3b</it>, <it>-4b</it>, <it>-5a </it>and <it>-6a</it>), whose orthologies were validated with molecular phylogenetic trees. The intergenic regions of three <it>dlx </it>gene clusters (<it>dlx1a-2a</it>, <it>dlx3b-4b</it>, and <it>dlx5a-6a</it>) were amplified with long PCR. Intensive cross-species comparison revealed a number of conserved non-coding elements (CNEs) that are shared with other percomorph fishes. This analysis highlighted additional lineage-specific gains/losses of CNEs in different teleost fish lineages and a novel CNE that had previously not been identified. Our gene expression analyses revealed overlapping but distinct expression of <it>dlx </it>orthologs in the developing brain and pharyngeal arches. Notably, four of the seven <it>A. burtoni dlx </it>genes, <it>dlx2a</it>, <it>dlx3b</it>, <it>dlx4a </it>and <it>dlx5a</it>, were expressed in the developing pharyngeal teeth.</p> <p>Conclusion</p> <p>This comparative study of the <it>dlx </it>genes of <it>A. burtoni </it>has deepened our knowledge of the diversity of the <it>Dlx </it>gene family, in terms of gene repertoire, expression patterns and non-coding elements. We have identified possible cichlid lineage-specific changes, including losses of a subset of <it>dlx </it>expression domains in the pharyngeal teeth, which will be the targets of future functional studies.</p> http://www.evodevojournal.com/content/2/1/1 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Renz Adina J Gunter Helen M Fischer Jan MF Qiu Huan Meyer Axel Kuraku Shigehiro |
| spellingShingle |
Renz Adina J Gunter Helen M Fischer Jan MF Qiu Huan Meyer Axel Kuraku Shigehiro Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish EvoDevo |
| author_facet |
Renz Adina J Gunter Helen M Fischer Jan MF Qiu Huan Meyer Axel Kuraku Shigehiro |
| author_sort |
Renz Adina J |
| title |
Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish |
| title_short |
Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish |
| title_full |
Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish |
| title_fullStr |
Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish |
| title_full_unstemmed |
Ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an African cichlid fish |
| title_sort |
ancestral and derived attributes of the <it>dlx </it>gene repertoire, cluster structure and expression patterns in an african cichlid fish |
| publisher |
BMC |
| series |
EvoDevo |
| issn |
2041-9139 |
| publishDate |
2011-01-01 |
| description |
<p>Abstract</p> <p>Background</p> <p>Cichlid fishes have undergone rapid, expansive evolutionary radiations that are manifested in the diversification of their trophic morphologies, tooth patterning and coloration. Understanding the molecular mechanisms that underlie the cichlids' unique patterns of evolution requires a thorough examination of genes that pattern the neural crest, from which these diverse phenotypes are derived. Among those genes, the homeobox-containing <it>Dlx </it>gene family is of particular interest since it is involved in the patterning of the brain, jaws and teeth.</p> <p>Results</p> <p>In this study, we characterized the <it>dlx </it>genes of an African cichlid fish, <it>Astatotilapia burtoni</it>, to provide a baseline to later allow cross-species comparison within Cichlidae. We identified seven <it>dlx </it>paralogs (<it>dlx1a</it>, <it>-2a</it>, <it>-4a</it>, <it>-3b</it>, <it>-4b</it>, <it>-5a </it>and <it>-6a</it>), whose orthologies were validated with molecular phylogenetic trees. The intergenic regions of three <it>dlx </it>gene clusters (<it>dlx1a-2a</it>, <it>dlx3b-4b</it>, and <it>dlx5a-6a</it>) were amplified with long PCR. Intensive cross-species comparison revealed a number of conserved non-coding elements (CNEs) that are shared with other percomorph fishes. This analysis highlighted additional lineage-specific gains/losses of CNEs in different teleost fish lineages and a novel CNE that had previously not been identified. Our gene expression analyses revealed overlapping but distinct expression of <it>dlx </it>orthologs in the developing brain and pharyngeal arches. Notably, four of the seven <it>A. burtoni dlx </it>genes, <it>dlx2a</it>, <it>dlx3b</it>, <it>dlx4a </it>and <it>dlx5a</it>, were expressed in the developing pharyngeal teeth.</p> <p>Conclusion</p> <p>This comparative study of the <it>dlx </it>genes of <it>A. burtoni </it>has deepened our knowledge of the diversity of the <it>Dlx </it>gene family, in terms of gene repertoire, expression patterns and non-coding elements. We have identified possible cichlid lineage-specific changes, including losses of a subset of <it>dlx </it>expression domains in the pharyngeal teeth, which will be the targets of future functional studies.</p> |
| url |
http://www.evodevojournal.com/content/2/1/1 |
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