Modeling a cortical auxin maximum for nodulation : different signatures of potential strategies
Frontiers Plant Biophys. Model. , Volume 3 - Issue Article number: 96 p. 1- 19
Lateral organ formation from plant roots typically requires the de novo creation of a meristem, initiated at the location of a localized auxin maximum. Legume roots can form both root nodules and lateral roots. From the basic principles of auxin transport and metabolism only a few mechanisms can be inferred for increasing the local auxin concentration: increased influx, decreased efflux, and (increased) local production. Using computer simulations we investigate the different spatio-temporal patterns resulting from each of these mechanisms in the context of a root model of a generalized legume. We apply all mechanisms to the same group of preselected cells, dubbed the controlled area. We find that each mechanism leaves its own characteristic signature. Local production by itself can not create a strong auxin maximum. An increase of influx, as is observed in lateral root formation, can result in an auxin maximum that is spatially more confined than the controlled area. A decrease of efflux on the other hand leads to a broad maximum, which is more similar to what is observed for nodule primordia. With our prime interest in nodulation, we further investigate the dynamics following a decrease of efflux. We find that with a homogeneous change in the whole cortex, the first auxin accumulation is observed in the inner cortex. The steady state lateral location of this efflux reduced auxin maximum can be shifted by slight changes in the ratio of central to peripheral efflux carriers. We discuss the implications of this finding in the context of determinate and indeterminate nodules, which originate from different cortical positions. The patterns we have found are robust under disruption of the (artificial) tissue layout. The same patterns are therefore likely to occur in many other contexts.
|Frontiers Plant Biophys. Model.|
|Organisation||Theory of Biomolecular Matter|
Deinum, E.E, Geurts, R, Bisseling, T, & Mulder, B.M. (2012). Modeling a cortical auxin maximum for nodulation : different signatures of potential strategies. Frontiers Plant Biophys. Model., 3(Article number: 96), 1–19. doi:10.3389/fpls.2012.00096