Pages that link to "Q24613199"
Jump to navigation
Jump to search
The following pages link to Distinct interactions select and maintain a specific cell fate (Q24613199):
Displaying 50 items.
- Feedback loops and reciprocal regulation: recurring motifs in the systems biology of the cell cycle (Q27021741) (← links)
- An algorithm to automate yeast segmentation and tracking (Q27312130) (← links)
- Dilution of the cell cycle inhibitor Whi5 controls budding-yeast cell size (Q27316035) (← links)
- Whi5 phosphorylation embedded in the G1/S network dynamically controls critical cell size and cell fate. (Q27319518) (← links)
- A systematic analysis of cell cycle regulators in yeast reveals that most factors act independently of cell size to control initiation of division (Q27933021) (← links)
- The Yeast Cyclin-Dependent Kinase Routes Carbon Fluxes to Fuel Cell Cycle Progression (Q27938496) (← links)
- Targeting the cyclin-dependent kinases (CDK) 4/6 in estrogen receptor-positive breast cancers (Q28069910) (← links)
- Getting to S: CDK functions and targets on the path to cell-cycle commitment (Q28072815) (← links)
- How to train your microbe: methods for dynamically characterizing gene networks (Q28088587) (← links)
- MicroRNA-101 is a potential prognostic indicator of laryngeal squamous cell carcinoma and modulates CDK8 (Q28266383) (← links)
- Control of cell cycle transcription during G1 and S phases (Q28295030) (← links)
- Single-cell measurements of enzyme levels as a predictive tool for cellular fates during organic acid production (Q28661489) (← links)
- Cell size control in yeast (Q28730014) (← links)
- Feedforward regulation ensures stability and rapid reversibility of a cellular state (Q30540986) (← links)
- A comparative study of Whi5 and retinoblastoma proteins: from sequence and structure analysis to intracellular networks. (Q30566194) (← links)
- Nuclear repulsion enables division autonomy in a single cytoplasm (Q30583134) (← links)
- Division of labour between Myc and G1 cyclins in cell cycle commitment and pace control (Q30587011) (← links)
- The transcription factors Tec1 and Ste12 interact with coregulators Msa1 and Msa2 to activate adhesion and multicellular development (Q33743589) (← links)
- Regulation of cyclin-substrate docking by a G1 arrest signaling pathway and the Cdk inhibitor Far1. (Q33863667) (← links)
- The linear interplay of intrinsic and extrinsic noises ensures a high accuracy of cell fate selection in budding yeast (Q33923862) (← links)
- Modularity and predictability in cell signaling and decision making (Q34504128) (← links)
- The effective application of a discrete transition model to explore cell-cycle regulation in yeast (Q34895544) (← links)
- A docking interface in the cyclin Cln2 promotes multi-site phosphorylation of substrates and timely cell-cycle entry. (Q35054520) (← links)
- Evolution of networks and sequences in eukaryotic cell cycle control (Q35466800) (← links)
- Chromosomal Arrangement of Phosphorelay Genes Couples Sporulation and DNA Replication. (Q35863942) (← links)
- Modulation of receptor dynamics by the regulator of G protein signaling Sst2. (Q36455447) (← links)
- Ultrasensitivity of the Bacillus subtilis sporulation decision. (Q36483629) (← links)
- Acetyl-CoA induces transcription of the key G1 cyclin CLN3 to promote entry into the cell division cycle in Saccharomyces cerevisiae (Q36820004) (← links)
- Identification of the molecular mechanisms for cell-fate selection in budding yeast through mathematical modeling (Q36864502) (← links)
- Punctuated evolution and transitional hybrid network in an ancestral cell cycle of fungi (Q36888665) (← links)
- Plasma membrane/cell wall perturbation activates a novel cell cycle checkpoint during G1 in Saccharomyces cerevisiae (Q37040705) (← links)
- The Cdk1-APC/C cell cycle oscillator circuit functions as a time-delayed, ultrasensitive switch (Q37057318) (← links)
- Single-cell dynamics and variability of MAPK activity in a yeast differentiation pathway (Q37323002) (← links)
- Functional overlap among distinct G1/S inhibitory pathways allows robust G1 arrest by yeast mating pheromones. (Q37348744) (← links)
- Topology and control of the cell-cycle-regulated transcriptional circuitry (Q37412791) (← links)
- Translate to divide: control of the cell cycle by protein synthesis (Q37698109) (← links)
- Event timing at the single-cell level (Q38063767) (← links)
- Start and the restriction point (Q38126722) (← links)
- Simple rules for complex processes: new lessons from the budding yeast cell cycle (Q38256521) (← links)
- The Biosynthetic Basis of Cell Size Control. (Q38634750) (← links)
- A new cell cycle checkpoint that senses plasma membrane/cell wall damage in budding yeast. (Q38756172) (← links)
- Form and function of topologically associating genomic domains in budding yeast (Q38872766) (← links)
- Spatial and temporal signal processing and decision making by MAPK pathways (Q39065138) (← links)
- Diverse roles of Dpb2, the non-catalytic subunit of DNA polymerase ε. (Q39314120) (← links)
- Sphingolipids regulate telomere clustering by affecting the transcription of genes involved in telomere homeostasis (Q40867505) (← links)
- Switch-like Transitions Insulate Network Motifs to Modularize Biological Networks (Q40959231) (← links)
- Cell cycle commitment in budding yeast emerges from the cooperation of multiple bistable switches. (Q41782987) (← links)
- Compartmentalization of a bistable switch enables memory to cross a feedback-driven transition (Q42057139) (← links)
- Fundamental trade-offs between information flow in single cells and cellular populations. (Q44871611) (← links)
- Degradation of the Mitotic Cyclin Clb3 Is not Required for Mitotic Exit but Is Necessary for G1 Cyclin Control of the Succeeding Cell Cycle (Q47146714) (← links)