Biology – Quantitative Biology – Molecular Networks
Scientific paper
2010-05-24
Biology
Quantitative Biology
Molecular Networks
Scientific paper
Lateral inhibition patterns mediated by the Notch-Delta signaling system occur in diverse developmental contexts. These systems are based on an intercellular feedback loop in which Notch activation leads to down-regulation of Delta. However, even in relatively well-characterized systems, the pathway leading from Notch activation to Delta repression often remains elusive. Recent work has shown that cis-interactions between Notch and Delta lead to mutual inactivation of both proteins. Here we show that this type of cis-interaction enables a simpler and more direct mechanism for lateral inhibition feedback than those proposed previously. In this mechanism, Notch signaling directly up-regulates Notch expression, thereby inactivating Delta through the mutual inactivation of Notch and Delta proteins. This mechanism, which we term Simplest Lateral Inhibition by Mutual Inactivation (SLIMI), can implement patterning without requiring any additional genes or regulatory interactions. Moreover, the key interaction of Notch expression in response to Notch signaling has been observed in some systems. Stability analysis and simulation of SLIMI mathematical models show that this lateral inhibition circuit is capable of pattern formation across a broad range of parameter values. These results provide a simple and plausible explanation for lateral inhibition pattern formation during development.
Elowitz Michael B.
Lakhanpal Amit
Sprinzak David
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