%0 Journal Article %A Andrea Vega %A Isabel Fredes %A José O’Brien %A Zhouxin Shen %A Krisztina Ötvös %A Eva Benkova %A Steven P. Briggs %A Rodrigo A. Gutiérrez %T Phosphoproteomics after nitrate treatments reveal an important role for PIN2 phosphorylation in control of root system architecture %D 2020 %R 10.1101/2020.06.22.164640 %J bioRxiv %P 2020.06.22.164640 %X Nitrate is an important signaling molecule that commands genome-wide gene expression changes that impact metabolism, physiology, plant growth and development. Although gene expression responses to nitrate at the mRNA level have been characterized in great detail, the impact of nitrate signaling at the proteome level has been much less explored. Most signaling pathways involve post-translational modifications of key protein factors and chiefly among these modifications is protein phosphorylation. In an effort to identify new components involved in nitrate responses in plants, we performed analyses of the Arabidopsis thaliana root phosphoproteome in response to nitrate treatments via liquid chromatography coupled to tandem mass spectrometry. We identified 268 phosphoproteins that show significant changes at 5 min or 20 min after nitrate treatments. The large majority of these proteins (96%) are coded by genes that are not modulated at the expression level in response to nitrate treatments in publicly available transcriptome data. Proteins identified by 5 min include potential signaling-components such as kinases or transcription factors. In contrast, by 20 min, proteins identified were associated with protein binding, transporter activity or hormone metabolism functions. Interestingly, the phosphorylation profile of NITRATE TRANSPORTER 1.1 (NRT1.1) mutant plants in response to nitrate at 5 min was significantly different (95%) as compared to wild-type plants. This result is consistent with the role of NRT1.1 as a key component of a nitrate signaling pathway that involves phosphoproteomic changes. Our integrative bioinformatics analysis highlights auxin transport as an important mechanism modulated by nitrate signaling at the post-translational level. We experimentally validated the role of PIN2 phosphorylation in both primary and lateral root growth responses to nitrate. Our data provide new insights into the phosphoproteome and identifies novel protein components that are regulated post-translationally, such as PIN2, in nitrate responses in Arabidopsis thaliana roots. %U https://www.biorxiv.org/content/biorxiv/early/2020/06/23/2020.06.22.164640.full.pdf