SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins - Wikidata - thesis-toulmin - TriplyDB

SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins

SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins

http://www.wikidata.org/entity/Q24304073

about

Machine learning helps identify CHRONO as a circadian clock component Network features of the mammalian circadian clock p75 neurotrophin receptor is a clock gene that regulates oscillatory components of circadian and metabolic networks Role of type II protein arginine methyltransferase 5 in the regulation of Circadian Per1 gene Circadian control of XPA and excision repair of cisplatin-DNA damage by cryptochrome and HERC2 ubiquitin ligase SCFFbxo9 and CK2 direct the cellular response to growth factor withdrawal via Tel2/Tti1 degradation and promote survival in multiple myeloma FBH1 promotes DNA double-strand breakage and apoptosis in response to DNA replication stress Competing E3 ubiquitin ligases govern circadian periodicity by degradation of CRY in nucleus and cytoplasm A positive feedback loop links circadian clock factor CLOCK-BMAL1 to the basic transcriptional machinery Dual roles of FBXL3 in the mammalian circadian feedback loops are important for period determination and robustness of the clock Circadian clock control of the cellular response to DNA damage Setting clock speed in mammals: the CK1 epsilon tau mutation in mice accelerates circadian pacemakers by selectively destabilizing PERIOD proteins Dual modification of BMAL1 by SUMO2/3 and ubiquitin promotes circadian activation of the CLOCK/BMAL1 complex Deregulated proteolysis by the F-box proteins SKP2 and beta-TrCP: tipping the scales of cancer Casein kinase 1 delta regulates the pace of the mammalian circadian clock A genome-wide RNAi screen for modifiers of the circadian clock in human cells Interdependence of nutrient metabolism and the circadian clock system: Importance for metabolic health Circadian Control of Global Transcription The Molecular Circadian Clock and Alcohol-Induced Liver Injury Molecular architecture of the mammalian circadian clock Time-of-day- and light-dependent expression of ubiquitin protein ligase E3 component N-recognin 4 (UBR4) in the suprachiasmatic nucleus circadian clock Functional motifs in the (6-4) photolyase crystal structure make a comparative framework for DNA repair photolyases and clock cryptochromes SCFFBXL3 ubiquitin ligase targets cryptochromes at their cofactor pocket Crystal Structure of the Heterodimeric CLOCK:BMAL1 Transcriptional Activator Complex Crystal structure of mammalian cryptochrome in complex with a small molecule competitor of its ubiquitin ligase Chemical chronobiology: Toward drugs manipulating time.Life in a dark biosphere: a review of circadian physiology in "arrhythmic" environments.Coupling circadian rhythms of metabolism and chromatin remodelling Molecular components of the circadian clock in mammals Two Distinct Types of E3 Ligases Work in Unison to Regulate Substrate Ubiquitylation Emerging models for the molecular basis of mammalian circadian timing Control of chromosome stability by the beta-TrCP-REST-Mad2 axis Reversible protein phosphorylation regulates circadian rhythms betaTrCP- and Rsk1/2-mediated degradation of BimEL inhibits apoptosis Sleep and circadian dysfunction in neurodegenerative disorders: insights from a mouse model of Huntington's disease The Per2 negative feedback loop sets the period in the mammalian circadian clock mechanism Roles of protein ubiquitination and degradation kinetics in biological oscillations DYRK1A and glycogen synthase kinase 3beta, a dual-kinase mechanism directing proteasomal degradation of CRY2 for circadian timekeeping Cell type-specific functions of period genes revealed by novel adipocyte and hepatocyte circadian clock models Ligand modulation of REV-ERBalpha function resets the peripheral circadian clock in a phasic manner

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P2860

SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins

http://www.wikidata.org/entity/Q24304073

description

2007 nî lūn-bûn

@nan

2007 թուականի Մայիսին հրատարակուած գիտական յօդուած

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2007 թվականի մայիսին հրատարակված գիտական հոդված

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2007年の論文

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2007年論文

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2007年論文

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2007年論文

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2007年論文

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2007年論文

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2007年论文

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name

SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... ation of cryptochrome proteins

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SCFFbxl3 controls the oscillat ...... tion of cryptochrome proteins.

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Alessio Maiolica

http://www.w3.org/2001/XMLSchema#string

Choogon Lee

http://www.w3.org/2001/XMLSchema#string

Florian Bassermann

http://www.w3.org/2001/XMLSchema#string

Giulio F Draetta

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Luca Busino

http://www.w3.org/2001/XMLSchema#string

Patrick M Nolan

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Sofia I H Godinho

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scholarly article

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10.1126/SCIENCE.1141194

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5826

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316

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2007-05-11T00:00:00Z

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ubiquitin-protein transferase activity

circadian rhythm

F-box and leucine rich repeat protein 3