Heterotrimeric G protein α subunit (GPA1) regulates the response to low-nitrogen stress in Arabidopsis by interacting with AtNRT1.4 and AtATG8a

Abstract: Efficient nitrogen absorption and utilization are important factors for higher plants to increase yield and reduce eutrophication (caused by excessive use of nitrogen fertilizers). Heterotrimeric G proteins participate in the pathway regulating nitrogen absorption and utilization in plants. However, the regulatory mechanism remains largely obscured. In this study, our results revealed that mutant gpa1-4 was tolerant to low-nitrogen stress in Arabidopsis. AtGPA1 was shown to directly interact with a nitrate tra… Show more

“…For example, the gpa1-4 mutants showed a significantly lower germination rate under osmotic stress than wild-type (WT) [ 14 ]. In contrast, they exhibited higher fresh weight, chlorophyll contents, and total root lengths than WT under low-nitrogen conditions through direct interactions with the nitrate transporter (AtNRT1.4) and autophagy-related protein (AtATG8a) [ 15 ]. These findings suggest that the Gα subunit GPA1 is positively involved in osmotic stress resistance and negatively regulates low nitrogen stress conditions.…”

Heterotrimeric G Protein-Mediated Signaling Is Involved in Stress-Mediated Growth Inhibition in Arabidopsis thaliana

“…For example, the gpa1-4 mutants showed a significantly lower germination rate under osmotic stress than wild-type (WT) [ 14 ]. In contrast, they exhibited higher fresh weight, chlorophyll contents, and total root lengths than WT under low-nitrogen conditions through direct interactions with the nitrate transporter (AtNRT1.4) and autophagy-related protein (AtATG8a) [ 15 ]. These findings suggest that the Gα subunit GPA1 is positively involved in osmotic stress resistance and negatively regulates low nitrogen stress conditions.…”

Heterotrimeric G Protein-Mediated Signaling Is Involved in Stress-Mediated Growth Inhibition in Arabidopsis thaliana