Bna-novel-miR311-HSC70-1模块调控甘蓝型油菜响应热胁迫的机制
鲁海琴1(
), 陈丽1,2, 陈磊1, 张盈川1, 文静1, 易斌1, 涂金星1, 傅廷栋1, 沈金雄1,*()
), 陈丽1,2, 陈磊1, 张盈川1, 文静1, 易斌1, 涂金星1, 傅廷栋1, 沈金雄1,*()
Mechanism research of Bna-novel-miR311-HSC70-1 module regulating heat stress response in Brassica napus L.
LU Hai-Qin1(), CHEN Li1,2, CHEN Lei1, ZHANG Ying-Chuan1, WEN Jing1, YI Bin1, TU Jing-Xing1, FU Ting-Dong1, SHEN Jin-Xiong1,*()
), CHEN Li1,2, CHEN Lei1, ZHANG Ying-Chuan1, WEN Jing1, YI Bin1, TU Jing-Xing1, FU Ting-Dong1, SHEN Jin-Xiong1,*()
图6. 甘蓝型油菜阳性苗与J572在土壤中的高温胁迫表型及表达分析
a: 热胁迫前后阳性苗与J572的对比图, 图中红色箭头指存活的油菜。b: 热胁迫前后novel-miR311和HSC70-1的表达量。每次试验3次生物学重复。**表示P < 0.01。
Fig. 6. Phenotype and expression analysis under high temperature stress treatment of Brassica napus positive seedlings and J572 in soil
a: comparison of positive seedlings and J572 before and after heat stress, the red arrow in figures refers to the surviving rapeseed. b: expression of novel-miR311 and HSC70-1 before and after heat stress. Data are shown as mean ± SD of three biological replicates. ** P < 0.01.
