Xenopus rhodopsin promoter. Identification of immediate upstream sequences necessary for high level, rod-specific transcription

To understand the mechanisms that control the cell-specific visual pigment gene transcription, the Xenopus rhodopsin 5' regulatory region has been characterized in vivo using transient transfection of Xenopus embryos and transgenesis. The principal control sequences were located within -233/+41...

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Bibliographic Details
Published in:The Journal of biological chemistry 2001-09, Vol.276 (39), p.36557-36565
Main Authors: Mani, S S, Batni, S, Whitaker, L, Chen, S, Engbretson, G, Knox, B E
Format: Article
Language:English
Subjects:
Animals
Animals, Genetically Modified
Base Sequence
Central Nervous System - metabolism
Deoxyribonucleases - metabolism
DNA Footprinting
Freshwater
Gene Deletion
Green Fluorescent Proteins
Luciferases - metabolism
Luminescent Proteins - metabolism
Models, Genetic
Molecular Sequence Data
Mutagenesis, Site-Directed
Plasmids - metabolism
Promoter Regions, Genetic
Recombinant Fusion Proteins - metabolism
Rhodopsin - genetics
Sequence Homology, Nucleic Acid
Time Factors
Transcription, Genetic
Transfection
transgenic tadpoles
Xenopus
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Summary:To understand the mechanisms that control the cell-specific visual pigment gene transcription, the Xenopus rhodopsin 5' regulatory region has been characterized in vivo using transient transfection of Xenopus embryos and transgenesis. The principal control sequences were located within -233/+41, a region with significant conservation with mammalian rhodopsin genes. DNase footprinting indicated seven distinct regions that contain potential cis-acting elements. Sequences near the initiation site (-45/+41, basal region) were essential, but not sufficient, for rod-specific transcription. Two negative regulatory regions were found, one between -233 to -202, with no apparent similarity to known elements, and a second Ret-1-like CAAT (-136/-122) motif. Deletion of either sequence led to a 2-3-fold increase in expression levels, without a change in rod specificity. Sequences between -170 to -146, which contain an E-box motif, were necessary for high level expression in transgenic tadpoles but not in transient transfections. Sequences between -84 and -58, which contained an NRE-like consensus were found to be necessary for high level expression in both assays. Although expression levels were modulated by various proximal sequences in the rhodopsin promoter, none of the tested sequences were found to be necessary for rod specificity. Promoter constructs with a consensus BAT-1 sequence in conjunction with an NRE-like element upstream of the basal promoter directed low level green fluorescent protein expression in the central nervous system in transgenic tadpoles. These results suggest that rod cell-specific expression of rhodopsin is controlled by redundant elements in the proximal promoter.
ISSN:0021-9258
DOI:10.1074/jbc.M101685200