TY - JOUR T1 - SiCEP3, a C-terminally encoded peptides from <em>Setaria italica</em>, promotes ABA import and signaling pathway JF - bioRxiv DO - 10.1101/2021.01.30.428944 SP - 2021.01.30.428944 AU - Lei Zhang AU - Yue Ren AU - Yiman Wan AU - Qian Xu AU - Guodong Yang AU - Shizhong Zhang AU - Jinguang Huang AU - Kang Yan AU - Chengchao Zheng AU - Changai Wu Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/01/31/2021.01.30.428944.1.abstract N2 - C-terminally encoded peptides (CEPs) are small peptides, typically post-translationally modified, and highly conserved in many species. CEPs are known to play roles in inhibition of plant growth and regulation of development, but the mechanisms are not well understood. In this study, we searched for CEP peptides in foxtail millet (Setaria italica). The 14 peptides we identified are divided into two subfamilies. The transcripts of most SiCEPs were more abundant in roots than in other tissues. SiCEP3, SiCEP4, and SiCEP5 were also expressed at high levels in panicles. Moreover, expression of all SiCEPs was induced by biotic stress and phytohormones. SiCEP3 overexpression and application of biosynthetic SiCEP3 both inhibited the growth of seedlings. In the presence of ABA, growth inhibition and ABA content of seedlings increased with the concentration of SiCEP3. Transcripts encoding two ABA transporters and one ABA receptor were induced by SiCEP3, ABA, and the two in combination. Further analysis revealed that SiCEP3 promoted ABA transport via NRT1.2 and ABCG40. In addition, SiCEP3, ABA, or the combination inhibited the kinase activities of CEP receptors CEPR1/2. Taken together, our results indicated that the CEP–CEPR module mediates ABA signaling by regulating ABCG40, NRT1.2, and PYL4 in planta.Highlight SiCEP3, a C-terminally encoded peptide, can promote ABA import and signaling pathway by inhibiting the kinase activity of its receptors under abiotic stress in Setaria italica.Competing Interest StatementThe authors have declared no competing interest. ER -