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Literature DB >> 20382065

An expanding universe of circadian networks in higher plants.

Abstract

Extensive circadian clock networks regulate almost every biological process in plants. Clock-controlled physiological responses are coupled with daily oscillations in environmental conditions resulting in enhanced fitness and growth vigor. Identification of core clock components and their associated molecular interactions has established the basic network architecture of plant clocks, which consists of multiple interlocked feedback loops. A hierarchical structure of transcriptional feedback overlaid with regulated protein turnover sets the pace of the clock and ultimately drives all clock-controlled processes. Although originally described as linear entities, increasing evidence suggests that many signaling pathways can act as both inputs and outputs within the overall network. Future studies will determine the molecular mechanisms involved in these complex regulatory loops. 2010 Elsevier Ltd. All rights reserved.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2010 PMID： 20382065 PMCID： PMC2866796 DOI： 10.1016/j.tplants.2010.03.003

Source DB: PubMed Journal: Trends Plant Sci ISSN： 1360-1385 Impact factor: 18.313

114 in total

1. The novel MYB protein EARLY-PHYTOCHROME-RESPONSIVE1 is a component of a slave circadian oscillator in Arabidopsis.

Authors: Norihito Kuno; Simon Geir Møller; Tomoko Shinomura; XiangMing Xu; Nam-Hai Chua; Masaki Furuya
Journal: Plant Cell Date: 2003-10 Impact factor: 11.277

2. Light-regulated translation mediates gated induction of the Arabidopsis clock protein LHY.

Authors: Jae-Yean Kim; Hae-Ryong Song; Bethan L Taylor; Isabelle A Carré
Journal: EMBO J Date: 2003-02-17 Impact factor: 11.598

3. Enhancer trapping reveals widespread circadian clock transcriptional control in Arabidopsis.

Authors: Todd P Michael; C Robertson McClung
Journal: Plant Physiol Date: 2003-06 Impact factor: 8.340

4. The F-box protein ZEITLUPE confers dosage-dependent control on the circadian clock, photomorphogenesis, and flowering time.

Authors: David E Somers; Woe-Yeon Kim; Ruishuang Geng
Journal: Plant Cell Date: 2004-02-18 Impact factor: 11.277

5. A Myb-related transcription factor is involved in the phytochrome regulation of an Arabidopsis Lhcb gene.

Authors: Z Y Wang; D Kenigsbuch; L Sun; E Harel; M S Ong; E M Tobin
Journal: Plant Cell Date: 1997-04 Impact factor: 11.277

6. A light- and temperature-entrained circadian clock controls expression of transcripts encoding nuclear proteins with homology to RNA-binding proteins in meristematic tissue.

Authors: C Heintzen; S Melzer; R Fischer; S Kappeler; K Apel; D Staiger
Journal: Plant J Date: 1994-06 Impact factor: 6.417

7. The TIME FOR COFFEE gene maintains the amplitude and timing of Arabidopsis circadian clocks.

Authors: Anthony Hall; Ruth M Bastow; Seth J Davis; Shigeru Hanano; Harriet G McWatters; Victoria Hibberd; Mark R Doyle; Sibum Sung; Karen J Halliday; Richard M Amasino; Andrew J Millar
Journal: Plant Cell Date: 2003-10-10 Impact factor: 11.277

8. Targeted degradation of TOC1 by ZTL modulates circadian function in Arabidopsis thaliana.

Authors: Paloma Más; Woe-Yeon Kim; David E Somers; Steve A Kay
Journal: Nature Date: 2003-12-04 Impact factor: 49.962

9. CK2 phosphorylation of CCA1 is necessary for its circadian oscillator function in Arabidopsis.

Authors: Xavier Daniel; Shoji Sugano; Elaine M Tobin
Journal: Proc Natl Acad Sci U S A Date: 2004-02-20 Impact factor: 11.205

10. Arabidopsis transcriptional activators CBF1, CBF2, and CBF3 have matching functional activities.

Authors: Sarah J Gilmour; Sarah G Fowler; Michael F Thomashow
Journal: Plant Mol Biol Date: 2004-03 Impact factor: 4.076

89 in total

Review 1. Clocks not winding down: unravelling circadian networks.

Authors: Eric E Zhang; Steve A Kay
Journal: Nat Rev Mol Cell Biol Date: 2010-11 Impact factor: 94.444

2. Temperature compensation of the circadian clock: a role for the morning loop.

Authors: Nancy A Eckardt
Journal: Plant Cell Date: 2010-11-23 Impact factor: 11.277

3. Coordinated transcriptional regulation underlying the circadian clock in Arabidopsis.

Authors: Gang Li; Hamad Siddiqui; Yibo Teng; Rongcheng Lin; Xiang-yuan Wan; Jigang Li; On-Sun Lau; Xinhao Ouyang; Mingqiu Dai; Jianmin Wan; Paul F Devlin; Xing Wang Deng; Haiyang Wang
Journal: Nat Cell Biol Date: 2011-04-17 Impact factor: 28.824

4. Type II protein arginine methyltransferase 5 (PRMT5) is required for circadian period determination in Arabidopsis thaliana.

Authors: Sunghyun Hong; Hae-Ryong Song; Kerry Lutz; Randall A Kerstetter; Todd P Michael; C Robertson McClung
Journal: Proc Natl Acad Sci U S A Date: 2010-11-19 Impact factor: 11.205

10. Divergence of the expression and subcellular localization of CCR4-associated factor 1 (CAF1) deadenylase proteins in Oryza sativa.

Authors: Wei-Lun Chou; Li-Fen Huang; Jhen-Cheng Fang; Ching-Hui Yeh; Chwan-Yang Hong; Shaw-Jye Wu; Chung-An Lu
Journal: Plant Mol Biol Date: 2014-05-08 Impact factor: 4.076