E-Box Function in a Period Gene Repressed by Light

In most organisms, light plays a key role in the synchronization of the circadian timing system with the environmental day-night cycle. Light pulses that phase-shift the circadian clock also induce the expression of period (per) genes in vertebrates. Here, we report the cloning of a zebrafish per ge...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2004-03, Vol.101 (12), p.4106-4111
Hauptverfasser:	Vallone, Daniela, Gondi, Srinivas Babu, Whitmore, David, Foulkes, Nicholas S., Hall, Jeffrey C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological Sciences Bioluminescence Cell lines Cellular biology Circadian rhythm Circadian Rhythm - genetics Complementary DNA Danio rerio E-Box Elements - physiology Freshwater Gene expression Gene Expression Regulation - physiology Genes Genes, Reporter Larvae Light Molecular Sequence Data Neurons Nuclear Proteins - genetics Period Circadian Proteins Phase shift Promoter Regions, Genetic Repression Transfection Vertebrates Zebrafish - genetics Zeitgebers
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container_issue	12
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Vallone, Daniela Gondi, Srinivas Babu Whitmore, David Foulkes, Nicholas S. Hall, Jeffrey C.
description	In most organisms, light plays a key role in the synchronization of the circadian timing system with the environmental day-night cycle. Light pulses that phase-shift the circadian clock also induce the expression of period (per) genes in vertebrates. Here, we report the cloning of a zebrafish per gene, zfper4, which is remarkable in being repressed by light. We have developed an in vivo luciferase reporter assay for this gene in cells that contain a light-entrainable clock. High-definition bioluminescence traces have enabled us to accurately measure phase-shifting of the clock by light. We have also exploited this model to study how four E-box elements in the zfper4 promoter regulate expression. Mutagenesis reveals that the integrity of these four E-boxes is crucial for maintaining low basal expression together with robust rhythmicity and repression by light. Importantly, in the context of a minimal heterologous promoter, the E-box elements also direct a robust circadian rhythm of expression that is significantly phase-advanced compared with the original zfper4 promoter and lacks the light-repression property. Thus, these results reveal flexibility in the phase and light responsiveness of E-box-directed rhythmic expression, depending on the promoter context.
doi_str_mv	10.1073/pnas.0305436101
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Light pulses that phase-shift the circadian clock also induce the expression of period (per) genes in vertebrates. Here, we report the cloning of a zebrafish per gene, zfper4, which is remarkable in being repressed by light. We have developed an in vivo luciferase reporter assay for this gene in cells that contain a light-entrainable clock. High-definition bioluminescence traces have enabled us to accurately measure phase-shifting of the clock by light. We have also exploited this model to study how four E-box elements in the zfper4 promoter regulate expression. Mutagenesis reveals that the integrity of these four E-boxes is crucial for maintaining low basal expression together with robust rhythmicity and repression by light. Importantly, in the context of a minimal heterologous promoter, the E-box elements also direct a robust circadian rhythm of expression that is significantly phase-advanced compared with the original zfper4 promoter and lacks the light-repression property. 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subjects	Animals Biological Sciences Bioluminescence Cell lines Cellular biology Circadian rhythm Circadian Rhythm - genetics Complementary DNA Danio rerio E-Box Elements - physiology Freshwater Gene expression Gene Expression Regulation - physiology Genes Genes, Reporter Larvae Light Molecular Sequence Data Neurons Nuclear Proteins - genetics Period Circadian Proteins Phase shift Promoter Regions, Genetic Repression Transfection Vertebrates Zebrafish - genetics Zeitgebers
title	E-Box Function in a Period Gene Repressed by Light
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