Literature DB >> 9920662

The 69 bp circadian regulatory sequence (CRS) mediates per-like developmental, spatial, and circadian expression and behavioral rescue in Drosophila.

H Hao1, N R Glossop, L Lyons, J Qiu, B Morrish, Y Cheng, C Helfrich-Förster, P Hardin.   

Abstract

The period (per) gene is an essential component of the circadian timekeeping mechanism in Drosophila. This gene is expressed in a circadian manner, giving rise to a protein that feeds-back to regulate its own transcription. A 69 bp clock regulatory sequence (CRS) has been identified previously upstream of the period gene. The CRS confers wild-type mRNA cycling when used to drive a lacZ reporter gene in transgenic flies. To determine whether the CRS also mediates proper developmental and spatial expression and behavioral rescue, we used the CRS to drive either lacZ or per in transgenic flies. The results show that the CRS is able to activate expression in pacemaker neuron precursors in larvae and essentially all tissues that normally express per in pupae and adults. The CRS is sufficient to rescue circadian feedback loop function and behavioral rhythms in per01 flies. However, the period of locomotor activity rhythms shortens if a stronger basal promoter is used. This study shows that regulatory elements sufficient for clock-dependent and tissue-specific per expression in larvae, pupae, and adults are present in the CRS and that the period of adult locomotor activity rhythms is dependent, in part, on the overall level of per transcripts.

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Year:  1999        PMID: 9920662      PMCID: PMC6782140     

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  51 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  1992-12-15       Impact factor: 11.205

2.  Spatial and temporal expression of the period and timeless genes in the developing nervous system of Drosophila: newly identified pacemaker candidates and novel features of clock gene product cycling.

Authors:  M Kaneko; C Helfrich-Förster; J C Hall
Journal:  J Neurosci       Date:  1997-09-01       Impact factor: 6.167

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Journal:  J Neurosci       Date:  1990-08       Impact factor: 6.167

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Authors:  M Ikeda; M Nomura
Journal:  Biochem Biophys Res Commun       Date:  1997-04-07       Impact factor: 3.575

5.  Requirement for period gene expression in the adult and not during development for locomotor activity rhythms of imaginal Drosophila melanogaster.

Authors:  J Ewer; M Hamblen-Coyle; M Rosbash; J C Hall
Journal:  J Neurogenet       Date:  1990-11       Impact factor: 1.250

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Journal:  Cold Spring Harb Symp Quant Biol       Date:  1985

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Journal:  Science       Date:  1998-06-05       Impact factor: 47.728

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Journal:  Science       Date:  1994-01-14       Impact factor: 47.728

9.  Circadian cycling of a PERIOD-beta-galactosidase fusion protein in Drosophila: evidence for cyclical degradation.

Authors:  M E Dembinska; R Stanewsky; J C Hall; M Rosbash
Journal:  J Biol Rhythms       Date:  1997-04       Impact factor: 3.182

10.  Isolation of timeless by PER protein interaction: defective interaction between timeless protein and long-period mutant PERL.

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Journal:  Science       Date:  1995-11-03       Impact factor: 47.728
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  27 in total

1.  takeout, a novel Drosophila gene under circadian clock transcriptional regulation.

Authors:  W V So; L Sarov-Blat; C K Kotarski; M J McDonald; R Allada; M Rosbash
Journal:  Mol Cell Biol       Date:  2000-09       Impact factor: 4.272

2.  Stoichiometric relationship among clock proteins determines robustness of circadian rhythms.

Authors:  Yongjin Lee; Rongmin Chen; Hyeong-min Lee; Choogon Lee
Journal:  J Biol Chem       Date:  2011-01-03       Impact factor: 5.157

3.  A cis-regulatory sequence within the yellow locus of Drosophila melanogaster required for normal male mating success.

Authors:  Mark David Drapeau; Shawn A Cyran; Michaela M Viering; Pamela K Geyer; Anthony D Long
Journal:  Genetics       Date:  2005-11-04       Impact factor: 4.562

4.  A functional genomics strategy reveals clockwork orange as a transcriptional regulator in the Drosophila circadian clock.

Authors:  Akira Matsumoto; Maki Ukai-Tadenuma; Rikuhiro G Yamada; Jerry Houl; Kenichiro D Uno; Takeya Kasukawa; Brigitte Dauwalder; Taichi Q Itoh; Kuniaki Takahashi; Ryu Ueda; Paul E Hardin; Teiichi Tanimura; Hiroki R Ueda
Journal:  Genes Dev       Date:  2007-06-19       Impact factor: 11.361

5.  PER-dependent rhythms in CLK phosphorylation and E-box binding regulate circadian transcription.

Authors:  Wangjie Yu; Hao Zheng; Jerry H Houl; Brigitte Dauwalder; Paul E Hardin
Journal:  Genes Dev       Date:  2006-03-15       Impact factor: 11.361

6.  Circadian Activators Are Expressed Days before They Initiate Clock Function in Late Pacemaker Neurons from Drosophila.

Authors:  Tianxin Liu; Guruswamy Mahesh; Jerry H Houl; Paul E Hardin
Journal:  J Neurosci       Date:  2015-06-03       Impact factor: 6.167

7.  Circadian clocks: the tissue is the issue.

Authors:  Jerome S Menet; Paul E Hardin
Journal:  Curr Biol       Date:  2014-01-06       Impact factor: 10.834

8.  dCLOCK is present in limiting amounts and likely mediates daily interactions between the dCLOCK-CYC transcription factor and the PER-TIM complex.

Authors:  K Bae; C Lee; P E Hardin; I Edery
Journal:  J Neurosci       Date:  2000-03-01       Impact factor: 6.167

9.  CLOCK, an essential pacemaker component, controls expression of the circadian transcription factor DBP.

Authors:  J A Ripperger; L P Shearman; S M Reppert; U Schibler
Journal:  Genes Dev       Date:  2000-03-15       Impact factor: 11.361

10.  Simulation of Drosophila circadian oscillations, mutations, and light responses by a model with VRI, PDP-1, and CLK.

Authors:  Paul Smolen; Paul E Hardin; Brian S Lo; Douglas A Baxter; John H Byrne
Journal:  Biophys J       Date:  2004-05       Impact factor: 4.033
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