CRISPR/Cas9‐Mediated SiEPF2 Mutagenesis Attenuates Drought Tolerance and Yield in Foxtail Millet (Setaria italica)

生物 狗尾草 狐尾 花序 拟南芥 拟南芥 脱落酸 植物 农学 基因 突变体 遗传学
作者
Jian‐Hong Hao,Xueting Kang,L. Q. Zhang,Jiayi Chen,Dan Wang,Shuqi Dong,Xiaorui Li,Lulu Gao,Guanghui Yang,Xiangyang Yuan,Xiaoqian Chu,Jia‐Gang Wang
出处
期刊:Plant Cell and Environment [Wiley]
卷期号:48 (8): 6043-6046 被引量:2
标识
DOI:10.1111/pce.15597
摘要

ABSTRACT Plants employ peptide ligands to coordinate development and integrate environmental signals via dedicated cascades (#ref‐0013). Epidermal patterning factor (EPF), plays a significant role in regulating stomatal density, seed germination and panicle development (#ref‐0008). EPF/EPFL enhance drought tolerance by reducing stomatal density have been reported in multiple species, including Hordeum vulgare , Arabidopsis thaliana , Populus spp., Vitis vinifera , Sorghum bicolor and Brassica napus (#ref‐0001). Our previous study has shown that EPF can mediate drought resistance in foxtail millet by regulating stomatal density (#ref‐0004). Furthermore, evidence suggests that plants can regulate photosynthesis through stomatal modification, ultimately enhancing yield (#ref‐0005). Beyond stomatal density regulation, the EPF/EPFL gene family modulates seed germination through phytohormone signalling and regulates inflorescence development via ligand‐receptor interactions (#ref‐0007). OsEPFLs act as upstream ligands for the OsER1 receptor, activating the MAPK signalling cascade to regulate panicle morphogenesis (#ref‐0002). In this study, we sought to elucidate how SiEPF2 balances drought resistance and yield in foxtail millet by modulating stomatal density and panicle morphology. Our findings not only provide novel insights into SiEPF2's role in abiotic stress responses but also contribute valuable genetic resources for high‐yield breeding programmes in millet crops.
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