Department of Biological Sciences, College of Biological Science and Biotechnology, Chungnam National University, Daejeon, 34134, Republic of Korea.
Plant Cell Rep. 2021 Sep;40(9):1735-1749. doi: 10.1007/s00299-021-02735-z. Epub 2021 Jul 25.
Overexpression of the naturally occurring intron-retained (IR) forms of radish RsMYB1 and RsTT8 transcripts in Arabidopsis causes a substantial increase in anthocyanin accumulation. The production of anthocyanins in plants is tightly controlled by the MYB-bHLH-WD40 (MBW) complex. In this study, analysis of four radish (Raphanus sativus L.) inbred lines with different colored taproots revealed that regulatory genes of anthocyanin biosynthesis, RsMYB1 and RsTT8, produce three transcripts, one completely spliced and two intron retention (IR1 and IR2) forms. Transcripts RsMYB1-IR1 and RsMYB1-IR2 retained the 1st (380 nt) and 2nd (149 nt) introns, respectively; RsTT8-IR1 retained the 4th intron (113 nt); RsTT8-IR2 retained both the 3rd (128 nt) and 4th introns. Levels of most IR forms were substantially low in radish samples, but the RsTT8-IR2 level was higher than RsTT8 in red skin/red flesh (RsRf) root. Since all IR forms contained a stop codon within the intron, they were predicted to encode truncated proteins with defective interaction domains, resulting in the inability to form the MBW complex in vivo. However, tobacco leaves transiently co-expressing RsMYB1-IRs and RsTT8-IRs showed substantially higher anthocyanin accumulation than those co-expressing their spliced forms. Consistently, co-expression of constructs encoding truncated proteins with spliced or IR forms of their interaction partner in tobacco leaves did not result in anthocyanin accumulation. Compared with RsMYB1, the overexpression of RsMYB1-IRs in Arabidopsis pap1 mutant increased anthocyanin accumulation by > sevenfold and upregulated the expression of Arabidopsis flavonoid biosynthesis genes including AtTT8. Our results suggest that the stable co-expression of RsMYB1-IRs in fruit trees and vegetable crops could be used to increase their anthocyanin contents.
萝卜 RsMYB1 和 RsTT8 转录本的天然内含子保留(IR)形式的过表达导致拟南芥中花青素积累的大量增加。植物中花青素的产生受到 MYB-bHLH-WD40(MBW)复合物的严格控制。在这项研究中,对四个具有不同颜色块根的萝卜(Raphanus sativus L.)自交系的分析表明,花青素生物合成的调节基因 RsMYB1 和 RsTT8 产生三种转录本,一种完全拼接,两种内含子保留(IR1 和 IR2)形式。转录本 RsMYB1-IR1 和 RsMYB1-IR2 分别保留了第 1 个(380nt)和第 2 个内含子(149nt);RsTT8-IR1 保留了第 4 个内含子(113nt);RsTT8-IR2 保留了第 3 个(128nt)和第 4 个内含子。萝卜样品中大多数 IR 形式的水平都很低,但红色皮/红色肉(RsRf)根中的 RsTT8-IR2 水平高于 RsTT8。由于所有 IR 形式在内含子内都含有一个终止密码子,因此它们预计会编码具有缺陷相互作用结构域的截短蛋白,导致在体内无法形成 MBW 复合物。然而,在烟草叶片中瞬时共表达 RsMYB1-IRs 和 RsTT8-IRs 会导致比共表达其拼接形式的烟草叶片中的花青素积累量高得多。一致地,在烟草叶片中编码与它们的相互作用伙伴的拼接或 IR 形式的截断蛋白的构建体的共表达并没有导致花青素的积累。与 RsMYB1 相比,RsMYB1-IRs 在拟南芥 pap1 突变体中的过表达使花青素的积累增加了 7 倍以上,并上调了包括 AtTT8 在内的拟南芥类黄酮生物合成基因的表达。我们的研究结果表明,在果树上和蔬菜作物中稳定共表达 RsMYB1-IRs 可用于增加其花青素含量。
