生物
发芽
基因
藜藜
非生物胁迫
拟南芥
基因家族
转录因子
候选基因
拟南芥
遗传学
异源表达
植物
基因表达
渗透性休克
非生物成分
干旱胁迫
发起人
系统发育树
调节器
抗旱性
基因表达调控
细胞生物学
耐旱性
植物激素
脱落酸
表型
作者
Shanmin Zhou,Panpan Shi
标识
DOI:10.3389/fpls.2026.1860606
摘要
The TCP transcription factor family is a key regulator of plant growth, development and stress adaptation. The TCP gene family in the stress-tolerant cereal Chenopodium quinoa has not been systematically characterized. In this study, 20 non-redundant CqTCP members were identified genome-wide in quinoa and classified into three subfamilies (PCF, CIN and CYC/TB1) based on phylogenetic relationships. CqTCPs possess few introns, and their promoter regions are enriched in various cis-acting elements related to abiotic stress, hormone and light responses. They exhibit tissue-specific expression, and the expression of multiple members is significantly regulated by salt and drought stresses. Functional verification showed that CqTCP11 is localized in the nucleus. Heterologous overexpression of this gene in Arabidopsis thaliana significantly improved seed germination rate under salt and drought stresses, and enhanced the antioxidant capacity and osmotic adjustment ability of seedlings. This study systematically characterized the features of the quinoa TCP family and its functions in stress responses, clarified the key role of CqTCP11 in stress resistance during seed germination, and provided candidate genes and theoretical support for the genetic improvement of stress resistance in quinoa.
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