Abstract
Cells respond to many signals with a limited number of signaling components. Heterotrimeric G proteins and MAPK cascades are universally used by eukaryotic cells to transduce signals in various developmental processes or stress responses by activating different effectors. MAPK cascade is integrated with G proteins by scaffold protein during plant immunity. However, the molecular relationship between G proteins and MAPK modules in plant development is still unclear. In this study, we demonstrate that Arabidopsis Gβ protein AGB1 interacts with MPK3 and 6, MKK4 and 5, as well as the regulatory domains of YODA (YDA), the upstream MEKK of MKK4/5. Remarkably, YDA interacts with the plasma membrane associated SHORT SUSPENSOR (SSP) through its N- and C-terminal region in vitro and in vivo. Additionally, genetic analysis shows that AGB1 functions together with MPK3/6 signaling cascade during the asymmetric division of the zygote. These data indicate that Gβ may function likely as a scaffold, through direct physical interaction with the components of the MPK signaling module in plant development. Our results provide new insights into the molecular functions of G protein and will advance the understanding of the complex mechanism of kinase signaling cascades.
Highlights
Heterotrimeric G proteins transmit numerous and diverse extracellular cues by coupling with the plasma membrane-localized receptors and different effectors in eukaryotic cells
We first examined the interaction of GPA1, AGB1, AGG1 and AGG2 with MPK3 and MPK6 in vivo by a firefly luciferase complementation imaging assay in tobacco leaves[24]
These results suggest that the interaction of GPA1 with MPK3/6 is independent of its GTPase activity
Summary
Heterotrimeric G proteins transmit numerous and diverse extracellular cues by coupling with the plasma membrane-localized receptors and different effectors in eukaryotic cells. It was shown that RACK1 interacts with AGB1 and functions as a dynamic scaffold of MEKK1-MKK5-MPK3/6 cascade during plant immune response[14]. The kinases-governed zygote development appears dependent on a ZAR1-SSP-YDA-MKK4/5-MPK3/6 signaling cascade. Further genetics study confirmed the genetic interaction between MPK3/6 and AGB1 during zygote and fruit development.
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