花青素在植物生長(zhǎng)中起著重要作用�����,對(duì)人體健康有益��。在植物中���,MYB‐bHLH‐WD40復(fù)合物(MBW)激活了花青素合成的基因。然而��,水稻中WD40的調(diào)控因子仍不清楚�。本研究我們將一個(gè)關(guān)鍵的花青素合成基因精細(xì)定位到第2號(hào)染色體上一個(gè)43.4 kb的基因組區(qū)域,并將一個(gè)WD40基因OsTTG1 (O. sativa TRANSPARENT TESTA GLABRA1)確定為理想的候選基因����。
隨后,由CRISPR/Cas9編輯的純合子突變體osttg1顯著降低了水稻各器官中花青素的積累����。OsTTG1在水稻萌發(fā)后各組織中均有高表達(dá)����,且受光照和溫度的影響���。OsTTG1蛋白定位于細(xì)胞核�����,可與Kala4����、OsC1�、OsDFR和RC發(fā)生物理作用
。此外�����,共有59個(gè)hub轉(zhuǎn)錄因子基因可能影響水稻花青素合成��,其中LOC_Os01g28680和LOC_Os02g32430可能與OsTTG1存在功能冗余���。系統(tǒng)發(fā)育分析表明�����,定向選擇驅(qū)動(dòng)了秈稻和粳稻OsTTG1等位基因的進(jìn)化分化���。
結(jié)果表明���,OsTTG1是花青素合成的重要調(diào)控因子,是水稻和其他植物花青素合成基因工程的重要基因資源�。
Anthocyanins play an important role in the growth of plants and are beneficial to human health. In plants, the MYB‐bHLH‐WD40 (MBW) complex activates the genes for anthocyanin biosynthesis. However, in rice, the WD40 regulators remain to be conclusively identified. Here, a crucial anthocyanin biosynthesis gene was fine‐mapped to a 43.4‐kb genomic region on chromosome 2, and a WD40 gene OsTTG1 (O. sativa TRANSPARENT TESTA GLABRA1) was identified as ideal candidate gene. Subsequently, a homozygous mutant (osttg1) generated by CRISPR/Cas9 showed significantly decreased anthocyanin accumulation in various rice organs. OsTTG1 was highly expressed in various rice tissues after germination and it was affected by light and temperature. OsTTG1 protein was localized to the nucleus and can physically interact with Kala4, OsC1, OsDFR and Rc. Furthermore, a total of 59 hub transcription factor genes might affect rice anthocyanin biosynthesis, and LOC_Os01g28680 and LOC_Os02g32430 could have functional redundancy with OsTTG1. Phylogenetic analysis indicated that directional selection has driven the evolutionary divergence of the indica and japonica OsTTG1 alleles. Our results suggest that OsTTG1 is a vital regulator of anthocyanin biosynthesis and an important gene resource for the genetic engineering of anthocyanin biosynthesis in rice and other plants.
DOI:10.1111/tpj.15285
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