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Simple sequence repeats provide a substrate for phenotypic variation in the Neurospora crassa circadian clockBiological Significance of Photoreceptor Photocycle Length: VIVID Photocycle Governs the Dynamic VIVID-White Collar Complex Pool Mediating Photo-adaptation and Response to Changes in Light IntensityA developmental cycle masks output from the circadian oscillator under conditions of choline deficiency in Neurospora.Circadian rhythms in Neurospora crassa: dynamics of the clock component frequency visualized using a fluorescent reporterRelevance of the light signaling machinery for cellulase expression in Trichoderma reesei (Hypocrea jecorina)Analysis of Circadian Rhythms in the Basal Filamentous Ascomycete Pyronema confluens.Suppression of WHITE COLLAR-independent frequency Transcription by Histone H3 Lysine 36 Methyltransferase SET-2 Is Necessary for Clock Function in Neurospora.Regulation of the activity and cellular localization of the circadian clock protein FRQ.A circadian clock in Neurospora: how genes and proteins cooperate to produce a sustained, entrainable, and compensated biological oscillator with a period of about a dayQuantitative proteomics reveals a dynamic interactome and phase-specific phosphorylation in the Neurospora circadian clockMolecular mechanism of suppression of circadian rhythms by a critical stimulus.Circadian rhythms in Neurospora crassa: clock mutant effects in the absence of a frq-based oscillator.Protein kinase A and casein kinases mediate sequential phosphorylation events in the circadian negative feedback loopTranscriptional repression of frequency by the IEC-1-INO80 complex is required for normal Neurospora circadian clock function.Sensing the environment: lessons from fungi.Rhythmic conidiation in constant light in vivid mutants of Neurospora crassa.Posttranslational photomodulation of circadian amplitude.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 activitySuppression of WC-independent frequency transcription by RCO-1 is essential for Neurospora circadian clock.The exosome regulates circadian gene expression in a posttranscriptional negative feedback loopReversible phosphorylation subserves robust circadian rhythms by creating a switch in inactivating the positive element.Antisense transcription licenses nascent transcripts to mediate transcriptional gene silencing.The blue-light receptor CmWC-1 mediates fruit body development and secondary metabolism in Cordyceps militaris.Sequence Analysis and Expression of a Blue-light Photoreceptor Gene, Slwc-1 from the Cauliflower Mushroom Sparassis latifolia.Making Time: Conservation of Biological Clocks from Fungi to Animals.Both subunits of the circadian RNA-binding protein CHLAMY1 can integrate temperature information.Codon usage biases co-evolve with transcription termination machinery to suppress premature cleavage and polyadenylation.Transcription factor CBF-1 is critical for circadian gene expression by modulating WHITE COLLAR complex recruitment to the frq locus
P2860
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P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Proteins in the Neurospora circadian clockworks.
@ast
Proteins in the Neurospora circadian clockworks.
@en
type
label
Proteins in the Neurospora circadian clockworks.
@ast
Proteins in the Neurospora circadian clockworks.
@en
prefLabel
Proteins in the Neurospora circadian clockworks.
@ast
Proteins in the Neurospora circadian clockworks.
@en
P2860
P921
P356
P1476
Proteins in the Neurospora circadian clockworks.
@en
P2093
Jay C Dunlap
P2860
P304
28489-28493
P356
10.1074/JBC.R600018200
P407
P577
2006-08-11T00:00:00Z