Artigo
Utilizing systems biology to unravel stomatal function and the hierarchies underpinning its control
Autor
Medeiros, David B.
Daloso, Danilo M.
Fernie, Alisdair R.
Nikoloski, Zoran
Araújo, Wagner L.
Institución
Resumen
Stomata control the concomitant exchange of CO 2 and transpiration in land plants. While a constant supply of CO 2 is need to maintain the rate of photosynthesis, the accompany-
ing water losses must be tightly regulated to prevent dehydration and undesired metabolic changes. The factors affecting stomatal movement are directly coupled with the cellular networks of guard cells. Although the guard cell has been used as a model for characterization of signaling pathways, several important questions about its functioning
remain elusive. Current modeling approaches describe the stomatal conductance in terms of relatively few easy-to-measure variables being unsuitable for in silico design of genetic manipulation strategies. Here, we argue that a system biology approach, combining modeling and high-throughput experiments, may be used to elucidate the mechanisms
underlying stomata control and to determine targets for modulation of stomatal responses to environment. In support of our opinion, we review studies demonstrating how high-
throughput approaches have provided a systems-view of guard cells. Finally, we emphasize the opportunities and challenges of genome-scale modeling and large-scale data integration for in silico manipulation of guard cell functions to improve crop yields, particularly under stress conditions which are of pertinence both to climate change and water use efficiency.