A new promoter element associated with daily time keeping in Drosophila
A new promoter element associated with daily time keeping in Drosophila
Circadian clocks are autonomous daily timekeeping mechanisms that allow organisms to adapt to environmental rhythms as well as temporally organize biological functions. Clock-controlled timekeeping involves extensive regulation of rhythmic gene expression. To date, relatively few clock-associated promoter elements have been identified and characterized. In an unbiased search of core clock gene promoters from 12 species of Drosophila, we discovered a 29-bp consensus sequence that we designated as the Clock-Associated Transcriptional Activation Cassette or ‘CATAC’. To experimentally address the spatiotemporal expression information associated with this element, we generated constructs with four separate native CATAC elements upstream of a basal promoter driving expression of either the yeast Gal4 or firefly luciferase reporter genes. Reporter assays showed that presence of wild-type, but not mutated CATAC elements, imparted increased expression levels as well as rhythmic regulation. Part of the CATAC consensus sequence resembles the E-box binding site for the core circadian transcription factor CLOCK/CYCLE (CLK/CYC), and CATAC-mediated expression rhythms are lost in the presence of null mutations in either cyc or the gene encoding the CLK/CYC inhibitor, period (per). Nevertheless, our results indicate that CATAC's enhancer function persists in the absence of CLK/CYC. Thus, CATAC represents a novel cis-regulatory element encoding clock-controlled regulation.
6459-6470
Sharp, Brandi
e38adb7b-8122-4c36-a6a8-08a8e2f16d0a
Paquet, Eric
158e2bfd-cf95-4053-8b3d-464344414456
Naef, Felix
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Bafna, Akanksha
5e0aed99-7229-4242-a7b6-4caf725b7b47
Wijnen, Herman
67e9bc5d-de6e-44ec-b4c2-50b67c5bc79d
Sharp, Brandi
e38adb7b-8122-4c36-a6a8-08a8e2f16d0a
Paquet, Eric
158e2bfd-cf95-4053-8b3d-464344414456
Naef, Felix
6b9216c8-441e-46d7-9cde-1cd97fbb5d8b
Bafna, Akanksha
5e0aed99-7229-4242-a7b6-4caf725b7b47
Wijnen, Herman
67e9bc5d-de6e-44ec-b4c2-50b67c5bc79d
Sharp, Brandi, Paquet, Eric, Naef, Felix, Bafna, Akanksha and Wijnen, Herman
(2017)
A new promoter element associated with daily time keeping in Drosophila.
Nucleic Acids Research, 45 (11), .
(doi:10.1093/nar/gkx268).
Abstract
Circadian clocks are autonomous daily timekeeping mechanisms that allow organisms to adapt to environmental rhythms as well as temporally organize biological functions. Clock-controlled timekeeping involves extensive regulation of rhythmic gene expression. To date, relatively few clock-associated promoter elements have been identified and characterized. In an unbiased search of core clock gene promoters from 12 species of Drosophila, we discovered a 29-bp consensus sequence that we designated as the Clock-Associated Transcriptional Activation Cassette or ‘CATAC’. To experimentally address the spatiotemporal expression information associated with this element, we generated constructs with four separate native CATAC elements upstream of a basal promoter driving expression of either the yeast Gal4 or firefly luciferase reporter genes. Reporter assays showed that presence of wild-type, but not mutated CATAC elements, imparted increased expression levels as well as rhythmic regulation. Part of the CATAC consensus sequence resembles the E-box binding site for the core circadian transcription factor CLOCK/CYCLE (CLK/CYC), and CATAC-mediated expression rhythms are lost in the presence of null mutations in either cyc or the gene encoding the CLK/CYC inhibitor, period (per). Nevertheless, our results indicate that CATAC's enhancer function persists in the absence of CLK/CYC. Thus, CATAC represents a novel cis-regulatory element encoding clock-controlled regulation.
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SharpPaquetNaefBafnaWijnenNAR270317accepted
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Accepted/In Press date: 27 March 2017
e-pub ahead of print date: 12 April 2017
Organisations:
Molecular and Cellular
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Local EPrints ID: 407205
URI: http://eprints.soton.ac.uk/id/eprint/407205
ISSN: 0305-1048
PURE UUID: 76718f65-f024-4076-acc2-6f3564b9597c
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Date deposited: 01 Apr 2017 01:06
Last modified: 16 Mar 2024 04:12
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Author:
Brandi Sharp
Author:
Eric Paquet
Author:
Felix Naef
Author:
Akanksha Bafna
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