A model for circadian rhythms in Drosophila incorporating the formation of a complex between the PER and TIM proteins.
about
Spatial bistability generates hunchback expression sharpness in the Drosophila embryoDrosophila doubletime mutations which either shorten or lengthen the period of circadian rhythms decrease the protein kinase activity of casein kinase IToward a detailed computational model for the mammalian circadian clockA model for generating circadian rhythm by coupling ultradian oscillators.Reaction-diffusion systems for spatio-temporal intracellular protein networks: A beginner's guide with two examplesTranscription fluctuation effects on biochemical oscillationsPositive feedback promotes oscillations in negative feedback loopsModeling the dual pacemaker system of the tau mutant hamster.Experimental validation of a predicted feedback loop in the multi-oscillator clock of Arabidopsis thaliana.Period shift induction by intermittent stimulation in a Drosophila model of PER protein oscillations.PERIOD-TIMELESS interval timer may require an additional feedback loop.Circadian phase resetting via single and multiple control targets.Hybrid modeling of biological networks: mixing temporal and qualitative biological properties.Stochastic simulation of the mammalian circadian clockEffects of macromolecular transport and stochastic fluctuations on dynamics of genetic regulatory systems.Forty years of PRCs--what have we learned?Limit cycle models for circadian rhythms based on transcriptional regulation in Drosophila and Neurospora.The Goodwin oscillator: on the importance of degradation reactions in the circadian clock.Robustness of circadian rhythms with respect to molecular noiseSynchronizing genetic relaxation oscillators by intercell signaling.Mechanisms of noise-resistance in genetic oscillatorsA graphical method for reducing and relating models in systems biologyA simple model of circadian rhythms based on dimerization and proteolysis of PER and TIM.A reduced model clarifies the role of feedback loops and time delays in the Drosophila circadian oscillatorInvited review: Sleeping flies don't lie: the use of Drosophila melanogaster to study sleep and circadian rhythms.Simulation of Drosophila circadian oscillations, mutations, and light responses by a model with VRI, PDP-1, and CLK.A model for the Neurospora circadian clockSynchronization and rhythmic processes in physiology.A role for timely nuclear translocation of clock repressor proteins in setting circadian clock speedRobust and flexible response of the Ostreococcus tauri circadian clock to light/dark cycles of varying photoperiod.An energy-optimal approach for entrainment of uncertain circadian oscillators.Chaotic motifs in gene regulatory networks.Systems Biology-Derived Discoveries of Intrinsic Clocks.Time-patterned drug administration: insights from a modeling approach.Synthetic biology: putting synthesis into biology.Nonlinear dynamics in clinical pharmacology: the paradigm of cortisol secretion and suppression.A model of the cell-autonomous mammalian circadian clockEffects of different per translational kinetics on the dynamics of a core circadian clock modelA model for the circadian rhythm of cyanobacteria that maintains oscillation without gene expressionSystems interface biology.
P2860
Q21145368-D44205CE-96DC-47FC-B594-59064AAE69EAQ24603265-8D0DAD35-1B26-4C9D-B5D3-7C9E29A91198Q24680836-81EA7ED9-88A1-40C6-9039-CC29848848C9Q25255534-6A8042D3-8135-45F4-A4AC-DEF64D14EBD2Q26991516-0AD13744-0CCD-4464-8A2D-3A953543D0A3Q28486182-83B9CA1C-8F75-4E8B-BB0D-AB6A9BAACBEFQ28541989-C4A37A79-762D-4FFF-BEC4-A3FCA0CCED6BQ30305824-35A140C3-B143-453A-976F-EBD555503C38Q30478431-5ADABB57-C79F-441C-9D41-96AAD10930DFQ33179720-592E7B0B-C98F-43DF-9616-FA6305AA0D91Q33293153-98E2CE69-BFE8-4949-9AF0-B6AC982C4DF5Q33369860-949F92FC-E474-4D75-A398-8DAE85338D2EQ33595216-0FD6C441-AA7D-448A-98B7-C3E64801E190Q33723152-0858CD2D-699E-4EFD-9F75-757B5B1EED5AQ33749156-EB68A318-D11F-44D9-A67D-C1EECFBABA67Q33786067-C0E1278A-3B56-4F93-ABAA-DA4B51454C98Q33822170-404597A6-C877-4CE8-BE3D-3DEB22967C93Q33822181-9475287B-CC31-45A0-B079-6310B56067A8Q33894337-C6F236E6-3212-46AA-93CB-870347501E09Q33894343-1C3CC36F-F59D-47B9-92FA-867BD1CCBF47Q34027562-9268DF34-07F3-4373-93A0-6D1D4E3211CCQ34110409-03DC4A35-817E-4B2F-AD37-AFDEF75DCD6BQ34171647-F214403B-E9BA-4B5E-A7D9-78D5ACA3A9DCQ34179029-B5C4B55A-B8E7-4F64-9C62-69C8698A0BBBQ34182468-69D55849-9539-4CF8-A9A7-C229006955A4Q34185538-D59E011F-8CF9-43CB-B7BD-A4C5C50BCFBBQ34189667-168A3CBB-D9EC-4039-AF57-252826258330Q34189726-897B0150-1C39-45A4-A65D-B86A636FD9C6Q34241551-A46448DF-75A9-4D1D-A619-09F78D2AA467Q34308848-E712982E-C77A-4E33-95F6-472BFAB35B60Q34310318-8101F465-1AEB-404E-8A8E-8D23DA55E54CQ34335691-7F1E16E5-0A8A-4CE4-9FED-2EA4EB8C0DB2Q34551665-8442FAD2-DF68-4950-8DE0-29B55A3AE07EQ34606474-28ECF955-B035-4970-8462-61C27DD91E89Q34675593-F0F67905-665D-4065-837A-D471DB00EAD9Q34722743-D0410975-FD64-4134-AF19-EB84E5854CE9Q34988540-D411EEBD-E277-4F2B-BB42-DA6A43A04A1FQ34995333-4386C64E-A86E-4E2E-89DE-5E7E9F63D731Q35012330-073138B6-21D3-4808-BEF9-35EE8E613504Q35172083-4F1151D5-88F5-4FF5-A381-06E68D4D0554
P2860
A model for circadian rhythms in Drosophila incorporating the formation of a complex between the PER and TIM proteins.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
A model for circadian rhythms ...... ween the PER and TIM proteins.
@en
type
label
A model for circadian rhythms ...... ween the PER and TIM proteins.
@en
prefLabel
A model for circadian rhythms ...... ween the PER and TIM proteins.
@en
P2860
P1476
A model for circadian rhythms ...... ween the PER and TIM proteins.
@en
P2093
A Goldbeter
J C Leloup
P2860
P356
10.1177/074873098128999934
P577
1998-02-01T00:00:00Z