Editing of the <i>MeSWEET10a</i> promoter yields bacterial blight resistance in cassava cultivar <scp>SC8</scp>
Yajie Wang, Meng-Ting Geng, Ranran Pan, Tong Zhang, Xiaohua Lü, Xing-Hou Zhen, Yannian Che, Ruimei Li, Jiao Liu, Yinhua Chen, Jian-Chun Guo, Yuan Yao
Abstract
Abstract Cassava starch is a widely used raw material for industrial production and food source for people. However, cassava bacterial blight (CBB) caused by Xanthomonas axonopodis pv. manihotis (Xam) results in severe yield losses and is the most destructive bacterial disease in all worldwide cassava‐growing regions. Xam11 is a highly pathogenic subspecies from China that infects the Chinese local cassava South China No. 8 (SC8) cultivar with marked symptoms. This study showed that the transcription activator‐like effector TALE20 Xam11 of Xam11 strain regulates the expression of disease‐susceptibility gene MeSWEET10a by binding to the EBE TALE20 region of the MeSWEET10a promoter in cassava cultivar SC8. CRISPR/Cas9‐generated mutations of the EBE TALE20 region resulted in a significant reduction in MeSWEET10a expression after infection by Xam11, correlating with reduced disease symptoms, smaller lesion sizes and decreased bacterial proliferation compared with the wild type. Importantly, the edited plants maintained normal growth, development and yield characteristics under greenhouse conditions. The results lay a research foundation for breeding resistant cassava cultivar SC8 to bacterial blight.