Regulatory function of conserved sequences upstream of the long-wave sensitive opsin genes in teleost fishes
► We characterized transcriptional regulatory elements of the X. helleri LWS1 gene. ► This was further enhanced by co-transfection of ROR-alpha. ► A six base pair region was responsible for the majority of this activity. ► This region was capable of binding nuclear proteins in EMSA. ► Mutation of th...
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Veröffentlicht in: | Vision research (Oxford) 2011-11, Vol.51 (21), p.2295-2303 |
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Zusammenfassung: | ► We characterized transcriptional regulatory elements of the
X. helleri LWS1 gene. ► This was further enhanced by co-transfection of ROR-alpha. ► A six base pair region was responsible for the majority of this activity. ► This region was capable of binding nuclear proteins in EMSA. ► Mutation of these six base pairs abolished transcription and protein binding.
Vertebrate opsin genes often occur in sets of tandem duplicates, and their expression varies developmentally and in response to environmental cues. We previously identified two highly conserved regions upstream of the long-wave sensitive opsin (LWS) gene cluster in teleosts. This region has since been shown in zebrafish to drive expression of LWS genes
in vivo. In order to further investigate how elements in this region control opsin gene expression, we tested constructs encompassing the highly conserved regions and the less conserved portions upstream of the coding sequences in a promoter-less luciferase expression system. A ∼4500
bp construct of the upstream region, including the highly-conserved regions Reg I and Reg II, increased expression 100-fold, and successive 5′ deletions reduced expression relative to the full 4.5
Kb region. Gene expression was highest when the transcription factor RORα was co-transfected with the proposed regulatory regions. Because these regions were tested in a promoter-less expression system, they include elements able to initiate and drive transcription. Teleosts exhibit complex color-mediated adaptive behavior and their adaptive significance has been well documented in several species. Therefore these upstream regions of LWS represent a model system for understanding the molecular basis of adaptive variation in gene regulation of color vision. |
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ISSN: | 0042-6989 1878-5646 |
DOI: | 10.1016/j.visres.2011.09.010 |