Protein kinase A and casein kinases mediate sequential phosphorylation events in the circadian negative feedback loop
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The CK1 Family: Contribution to Cellular Stress Response and Its Role in CarcinogenesisDual modification of BMAL1 by SUMO2/3 and ubiquitin promotes circadian activation of the CLOCK/BMAL1 complexDrosophila and vertebrate casein kinase Idelta exhibits evolutionary conservation of circadian functionEpigenetic and Posttranslational Modifications in Light Signal Transduction and the Circadian Clock in Neurospora crassaThe CK2 kinase stabilizes CLOCK and represses its activity in the Drosophila circadian oscillatorDYRK1A and glycogen synthase kinase 3beta, a dual-kinase mechanism directing proteasomal degradation of CRY2 for circadian timekeepingPalmitoylation targets AKAP79 protein to lipid rafts and promotes its regulation of calcium-sensitive adenylyl cyclase type 8Phosphorylation of the cryptochrome 1 C-terminal tail regulates circadian period lengthThe genetics of circadian rhythms in NeurosporaNew insights into the mechanism of light modulated signaling by heterotrimeric G-proteins: ENVOY acts on gna1 and gna3 and adjusts cAMP levels in Trichoderma reesei (Hypocrea jecorina)Calcium-dependent phosphorylation alters class XIVa myosin function in the protozoan parasite Toxoplasma gondiiCoordination of secondary metabolism and development in fungi: the velvet family of regulatory proteins.Light regulation of metabolic pathways in fungi.Molecular mechanisms that regulate the coupled period of the mammalian circadian clockFunctional significance of FRH in regulating the phosphorylation and stability of Neurospora circadian clock protein FRQThe circadian clock of Neurospora crassaOf switches and hourglasses: regulation of subcellular traffic in circadian clocks by phosphorylation.PDF and cAMP enhance PER stability in Drosophila clock neuronsMechanism of the Neurospora circadian clock, a FREQUENCY-centric view.Regulation of the activity and cellular localization of the circadian clock protein FRQ.Structural insights into a circadian oscillator.A role for casein kinase 2 in the mechanism underlying circadian temperature compensationQuantitative proteomics reveals a dynamic interactome and phase-specific phosphorylation in the Neurospora circadian clockAlteration of light-dependent gene regulation by the absence of the RCO-1/RCM-1 repressor complex in the fungus Neurospora crassaGlobal analysis of serine-threonine protein kinase genes in Neurospora crassaRole for Protein Kinase A in the Neurospora Circadian Clock by Regulating White Collar-Independent frequency Transcription through Phosphorylation of RCM-1.Single-step inline hydroxyapatite enrichment facilitates identification and quantitation of phosphopeptides from mass-limited proteomes with MudPITMethods to study molecular mechanisms of the Neurospora circadian clockTranscriptional repression of frequency by the IEC-1-INO80 complex is required for normal Neurospora circadian clock function.A mechanism for robust circadian timekeeping via stoichiometric balance.GWAS of 89,283 individuals identifies genetic variants associated with self-reporting of being a morning person.Seeing the world differently: variability in the photosensory mechanisms of two model fungiThe phospho-occupancy of an atypical SLIMB-binding site on PERIOD that is phosphorylated by DOUBLETIME controls the pace of the clock.Control of WHITE COLLAR localization by phosphorylation is a critical step in the circadian negative feedback process.Roles of CLOCK phosphorylation in suppression of E-box-dependent transcription.Setting the pace of the Neurospora circadian clock by multiple independent FRQ phosphorylation events.CATP is a critical component of the Neurospora circadian clock by regulating the nucleosome occupancy rhythm at the frequency locusThe Ccr4-not protein complex regulates the phase of the Neurospora circadian clock by controlling white collar protein stability and activityCodon usage is an important determinant of gene expression levels largely through its effects on transcription.Post-translational modifications in circadian rhythms
P2860
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P2860
Protein kinase A and casein kinases mediate sequential phosphorylation events in the circadian negative feedback loop
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Protein kinase A and casein ki ...... rcadian negative feedback loop
@ast
Protein kinase A and casein ki ...... rcadian negative feedback loop
@en
type
label
Protein kinase A and casein ki ...... rcadian negative feedback loop
@ast
Protein kinase A and casein ki ...... rcadian negative feedback loop
@en
prefLabel
Protein kinase A and casein ki ...... rcadian negative feedback loop
@ast
Protein kinase A and casein ki ...... rcadian negative feedback loop
@en
P2093
P2860
P921
P356
P1433
P1476
Protein kinase A and casein ki ...... rcadian negative feedback loop
@en
P2093
Chengzu Long
Guocun Huang
Joonseok Cha
Shaojie Li
P2860
P304
P356
10.1101/GAD.1610207
P577
2007-12-01T00:00:00Z