Positive feedback of G1 cyclins ensures coherent cell cycle entry - Test2 - elhamkhani - TriplyDB

Positive feedback of G1 cyclins ensures coherent cell cycle entry

Positive feedback of G1 cyclins ensures coherent cell cycle entry

http://www.wikidata.org/entity/Q24642340

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Recruitment of Cln3 cyclin to promoters controls cell cycle entry via histone deacetylase and other targets The transcriptional network activated by Cln3 cyclin at the G1-to-S transition of the yeast cell cycle An overview of Cdk1-controlled targets and processes Plk1 self-organization and priming phosphorylation of HsCYK-4 at the spindle midzone regulate the onset of division in human cells Distinct interactions select and maintain a specific cell fate.Systems biology: On the cell cycle and its switches Cell-Size Control Feedback loops and reciprocal regulation: recurring motifs in the systems biology of the cell cycle Experimental testing of a new integrated model of the budding yeast Start transition.An algorithm to automate yeast segmentation and tracking A tetraploid intermediate precedes aneuploid formation in yeasts exposed to fluconazole Oscillatory dynamics of cell cycle proteins in single yeast cells analyzed by imaging cytometry.Whi5 phosphorylation embedded in the G1/S network dynamically controls critical cell size and cell fate.Real-time quantification of protein expression at the single-cell level via dynamic protein synthesis translocation reporters.Adaptive imaging cytometry to estimate parameters of gene networks models in systems and synthetic biology A systematic analysis of cell cycle regulators in yeast reveals that most factors act independently of cell size to control initiation of division Bud3 activates Cdc42 to establish a proper growth site in budding yeast.FACT prevents the accumulation of free histones evicted from transcribed chromatin and a subsequent cell cycle delay in G1.The E2F functional analogue SBF recruits the Rpd3(L) HDAC, via Whi5 and Stb1, and the FACT chromatin reorganizer, to yeast G1 cyclin promoters Daughter-specific transcription factors regulate cell size control in budding yeast.Dual regulation by pairs of cyclin-dependent protein kinases and histone deacetylases controls G1 transcription in budding yeast Cdc28 kinase activity regulates the basal transcription machinery at a subset of genes.The Yeast Cyclin-Dependent Kinase Routes Carbon Fluxes to Fuel Cell Cycle Progression Targeting the cyclin-dependent kinases (CDK) 4/6 in estrogen receptor-positive breast cancers Getting to S: CDK functions and targets on the path to cell-cycle commitment Cell biology. On being the right (cell) size Control of cell cycle transcription during G1 and S phases Mathematical modelling of DNA replication reveals a trade-off between coherence of origin activation and robustness against rereplication Design principles of the yeast G1/S switch Comprehensive logic based analyses of Toll-like receptor 4 signal transduction pathway DNA Damage Response Checkpoint Activation Drives KP1019 Dependent Pre-Anaphase Cell Cycle Delay in S. cerevisiae Cell size control in yeast Transcriptional regulation is a major controller of cell cycle transition dynamics Cell cycle regulation by feed-forward loops coupling transcription and phosphorylation Mitotic exit in the absence of separase activity.Forced periodic expression of G1 cyclins phase-locks the budding yeast cell cycle Single-gene tuning of Caulobacter cell cycle period and noise, swarming motility, and surface adhesion A conserved G₁ regulatory circuit promotes asynchronous behavior of nuclei sharing a common cytoplasm.Quantitative time-lapse fluorescence microscopy in single cells.Feedforward regulation ensures stability and rapid reversibility of a cellular state

P2860

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P2860

Positive feedback of G1 cyclins ensures coherent cell cycle entry

http://www.wikidata.org/entity/Q24642340

description

2008 nî lūn-bûn

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2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2008 թվականի հուլիսին հրատարակված գիտական հոդված

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2008年の論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年论文

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name

Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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type

label

Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Positive feedback of G1 cyclins ensures coherent cell cycle entry

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Eric D Siggia

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

Frederick R Cross

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

P2860

The G(1) cyclin Cln3 promotes cell cycle entry via the transcription factor Swi6

High functional overlap between MluI cell-cycle box binding factor and Swi4/6 cell-cycle box binding factor in the G1/S transcriptional program in Saccharomyces cerevisiae

Distinct subcellular localization patterns contribute to functional specificity of the Cln2 and Cln3 cyclins of Saccharomyces cerevisiae

Comparison of the Saccharomyces cerevisiae G1 cyclins: Cln3 may be an upstream activator of Cln1, Cln2 and other cyclins

Roles and regulation of Cln-Cdc28 kinases at the start of the cell cycle of Saccharomyces cerevisiae

Hysteresis drives cell-cycle transitions in Xenopus laevis egg extracts

Coupling of cell division to cell growth by translational control of the G1 cyclin CLN3 in yeast

Comprehensive identification of cell cycle-regulated genes of the yeast Saccharomyces cerevisiae by microarray hybridization

Identifying combinatorial regulation of transcription factors and binding motifs

Improved monomeric red, orange and yellow fluorescent proteins derived from Discosoma sp. red fluorescent protein

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291-296

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1593187

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10.1038/NATURE07118

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7202

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454

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Jan M. Skotheim

Stefano Di Talia

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2008-07-01T00:00:00Z

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51407952

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1008416712

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18633409

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2606905

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