Role of an Arabidopsis Rab GTPase RabG3b in Pathogen Response and Leaf Senescence
2009
Kwon, S.I., Korea University, Seoul, Republic of Korea | Cho, H.J., Korea University, Seoul, Republic of Korea | Bae, K.S., Korea University, Seoul, Republic of Korea | Jung, J.H., Korea University, Seoul, Republic of Korea | Jin, H.C., Korea University, Seoul, Republic of Korea | Park, O.M., Korea University, Seoul, Republic of Korea
In our previous proteomic analysis, we isolated a small GTPase RabG3b as a salicylic acid-responsive protein in Arabidopsis (Oh et al. in Plant Cell 17:2832-2847, 2005). Here, we constructed transgenic plants overexpressing wild-type (RabG3bOX), constitutively active (RabG3bCA), and dominant negative (RabG3bDN) forms of RabG3b for functional studies. The phenotypes of these transgenic plants were indistinguishable from wild-type plants under normal growth conditions. However, both RabG3bOX and RabG3bCA plants displayed unrestricted hypersensitive programmed cell death against a fungal toxin Fumonisin B1 and a fungal pathogen Alternaria brassicicola, whereas no major difference between wild-type and RabG3bDN plants was observed. In addition, RabG3bOX and RabG3bCA plants underwent accelerated leaf senescence compared to wild-type and RabG3bDN plants. These results suggest that RabG3b is a modulator for cell death progression during pathogen response and senescence process in plants.
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