Pages that link to "Q44747576"

The following pages link to Understanding stochastic simulations of the smallest genetic networks (Q44747576):

Displaying 32 items.

• MicroRNA-based regulation of epithelial-hybrid-mesenchymal fate determination (Q24598602) (← links)
• HIV promoter integration site primarily modulates transcriptional burst size rather than frequency (Q28475647) (← links)
• Markov State Models of gene regulatory networks (Q28817353) (← links)
• ACCURATE CHEMICAL MASTER EQUATION SOLUTION USING MULTI-FINITE BUFFERS (Q28821892) (← links)
• State Space Truncation with Quantified Errors for Accurate Solutions to Discrete Chemical Master Equation (Q28828703) (← links)
• A spatial toggle switch drives boundary formation in development (Q30484713) (← links)
• Solution of the chemical master equation by radial basis functions approximation with interface tracking (Q30667434) (← links)
• Optimal enumeration of state space of finitely buffered stochastic molecular networks and exact computation of steady state landscape probability (Q33326169) (← links)
• Computational Cellular Dynamics Based on the Chemical Master Equation: A Challenge for Understanding Complexity (Q33836147) (← links)
• Biological role of noise encoded in a genetic network motif (Q34067922) (← links)
• Reversible and noisy progression towards a commitment point enables adaptable and reliable cellular decision-making (Q34079142) (← links)
• Speed, sensitivity, and bistability in auto-activating signaling circuits (Q34085589) (← links)
• Lysogen stability is determined by the frequency of activity bursts from the fate-determining gene (Q34439908) (← links)
• Stability and multiattractor dynamics of a toggle switch based on a two-stage model of stochastic gene expression (Q35649571) (← links)
• Landscape and Global Stability of Nonadiabatic and Adiabatic Oscillations in a Gene Network (Q35810022) (← links)
• Molecular level stochastic model for competence cycles in Bacillus subtilis (Q36140843) (← links)
• A new mechanism of stem cell differentiation through slow binding/unbinding of regulators to genes (Q36141812) (← links)
• A physical mechanism of cancer heterogeneity (Q36555525) (← links)
• Extinction and resurrection in gene networks (Q37039455) (← links)
• Quantifying Waddington landscapes and paths of non-adiabatic cell fate decisions for differentiation, reprogramming and transdifferentiation (Q37255821) (← links)
• Counter-intuitive stochastic behavior of simple gene circuits with negative feedback (Q40281873) (← links)
• Regulation of burstiness by network-driven activation. (Q40599824) (← links)
• Effects of small particle numbers on long-term behaviour in discrete biochemical systems (Q41832636) (← links)
• Type of noise defines global attractors in bistable molecular regulatory systems (Q42146514) (← links)
• Multi-stable dynamics of the non-adiabatic repressilator (Q43169274) (← links)
• Multiple coupled landscapes and non-adiabatic dynamics with applications to self-activating genes (Q50794761) (← links)
• Self-regulatory gene: an exact solution for the gene gate model (Q50989322) (← links)
• Counting statistics for genetic switches based on effective interaction approximation (Q51316657) (← links)
• Steady-state fluctuations of a genetic feedback loop: an exact solution (Q51340374) (← links)
• Approximation scheme based on effective interactions for stochastic gene regulation (Q51566600) (← links)
• Adiabatic and Non-Adiabatic Non-Equilibrium Stochastic Dynamics of Single Regulating Genes (Q53749547) (← links)
• Cell fate potentials and switching kinetics uncovered in a classic bistable genetic switch (Q61136376) (← links)