INVESTIGADORES
GUDESBLAT Gustavo Eduardo
artículos
Título:
Arabidopsis MPK3, a Key Signalling Intermediate in Stomatal Function
Autor/es:
GUSTAVO E. GUDESBLAT; NORBERTO D. IUSEM; PETER C. MORRIS
Revista:
Plant Signaling and behavior
Editorial:
Landes Biosciences
Referencias:
Año: 2007 vol. 2 p. 271 - 272
ISSN:
1559-2316
Resumen:
Regulation of stomatal aperture is of critical importance to plants to
balance gas exchange and water loss, and also to control ingress of
bacterial pathogens. MAP kinase signal transduction pathways are
mediators of biotic and abiotic stress, and have been indicted in the
control of stomatal movements. Cell-specific antisense was used to
down-regulate MPK3 gene expression in Arabidopsis guard cells,
resulting in ABA insensitivity during inhibition of stomatal opening,
but a normal ABA response in promotion of closure assays. This response
is similar to that of the heterotrimeric G protein alpha subunit mutant gpa1,
as is the imposition of ABA insensitivity during stomatal closure by
butyrate treatment, suggesting that MPK3 and GPA1 are in the same ABA
signal transduction pathway and adding further evidence for parallel
signalling pathways during ABA-induced closure. By contrast, antisense
plants were less sensitive to H2O2 in both
promotion of closure and inhibition of opening assays, although H2O2
production in response to ABA was not affected. Regulation of stomatal
aperture by PAMPs has recently been shown to be an important plant
defense mechanism; since MPK3 is also activated by such pathogen
elicitors, we postulate that in addition to a signalling role in guard
cell movements, MPK3 is involved in the active prevention of bacterial
infection through stomata.