Elena Er Alvarez-Buylla scite author profile

The genetic control of flower morphogenesis in Arabidopsis involves a large number of genes, of which 10 are considered here. The network topology has been derived from published genetic and molecular data, mainly relying on mRNA expression patterns under wild-type and mutant backgrounds. Using a 'generalized logical formalism', we provide a qualitative model and derive the parameter constraints accounting for the different patterns of gene expression found in the four floral organs of Arabidopsis (sepals, petals, stamens and carpels), plus a 'non-floral' state. This model also allows the simulation or the prediction of various mutant phenotypes. On the basis of our model analysis, we predict the existence of a sixth stable pattern of gene expression, yet to be characterized experimentally. Moreover, our dynamical analysis leads to the prediction of at least one more regulator of the gene LFY, likely to be involved in the transition from the non-flowering state to the flowering pathways. Finally, this work, together with other theoretical and experimental considerations, leads us to propose some general conclusions about the structure of gene networks controlling development.

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Analyses of the effect of loops on the dynamics of small pathway-like networks

Azpeitia¹,

Mendoza²,

Alvarez-Buylla³

et al. 2015

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Elena Er Alvarez-Buylla

Genetic control of flower morphogenesis in Arabidopsis thaliana: a logical analysis.

Analyses of the effect of loops on the dynamics of small pathway-like networks

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