The molecular mechanism of WRINKLED1 transcription factor regulating oil accumulation in developing seeds of castor bean

IF 4.6 1区 生物学 Q1 PLANT SCIENCES Plant Diversity Pub Date : 2023-07-01 DOI:10.1016/j.pld.2022.09.003
Qing Tan , Bing Han , Mohammad Enamul Haque , Ye-Lan Li , Yue Wang , Di Wu , Shi-Bo Wu , Ai-Zhong Liu
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Abstract

The transcription factor WRINKLED1 (WRI1), a member of AP2 gene family that contain typical AP2 domains, has been considered as a master regulator regulating oil biosynthesis in oilseeds. However, the regulatory mechanism of RcWRI1 in regulating oil accumulation during seed development has not been clearly addressed. Castor bean (Ricinus communis) is one of the most important non-edible oil crops and its seed oils are rich in hydroxy fatty acids, widely applied in industry. In this study, based on castor bean reference genome, three RcWRIs genes (RcWRI1, RcWRI2 and RcWRI3) were identified and the expressed association of RcWRI1 with oil accumulation were determined. Heterologous transformation of RcWRI1 significantly increased oil content in tobacco leaf, confirming that RcWRI1 activate lipid biosynthesis pathway. Using DNA Affinity Purification sequencing (DAP-seq) technology, we confirmed RcWRI1 binding with Transcription Start Site of genes and identified 7961 WRI1-binding candidate genes. Functionally, these identified genes were mainly involved in diverse metabolism pathways (including lipid biosynthesis). Three cis-elements AW-box ([CnTnG](n)7[CG]) and AW-boxes like ([GnAnC](n)6[GC]/[GnAnC](n)7[G]) bound with RcWRI1 were identified. Co-expression network analysis of RcWRI1 further found that RcWRI1 might be widely involved in biosynthesis of storage materials during seed development. In particular, yeast one hybrid experiments found that both AP2 domains within RcWRI1 were required in binding targeted genes. These results not only provide new evidence to understand the regulatory mechanism of RcWRI1 in regulation of oil accumulation during castor bean seed development, but also give candidate gene resource for subsequent genetic improvement toward increasing oil content in oilseed crops.

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蓖麻种子发育中皱褶led1转录因子调控油脂积累的分子机制
转录因子WRINKLED1(WRI1)是含有典型AP2结构域的AP2基因家族的一员,被认为是调节油料生物合成的主要调节因子。然而,RcWRI1在种子发育过程中调节油脂积累的调节机制尚未得到明确的研究。蓖麻是最重要的非食用油料作物之一,其籽油富含羟基脂肪酸,在工业上有着广泛的应用。在本研究中,基于蓖麻参考基因组,鉴定了三个RcWRIs基因(RcWRI1、RcWRI2和RcWRI3),并确定了RcWRl1与油积累的表达相关性。RcWRI1的异源转化显著增加了烟叶中的含油量,证实了RcWRl1激活了脂质生物合成途径。使用DNA亲和纯化测序(DAP-seq)技术,我们确认了RcWRI1与基因转录起始位点的结合,并鉴定了7961个WRI1结合候选基因。从功能上讲,这些已鉴定的基因主要参与多种代谢途径(包括脂质生物合成)。鉴定了与RcWRI1结合的三个顺式元件AW盒([CnTnG](n)7[CG])和类似AW盒的([GnAnC](n。RcWRI1的共表达网络分析进一步发现,RcWRl1可能广泛参与种子发育过程中贮藏材料的生物合成。特别地,酵母单杂交实验发现RcWRI1内的两个AP2结构域在结合靶向基因时都是必需的。这些结果不仅为理解RcWRI1在蓖麻种子发育过程中调节油积累的调控机制提供了新的证据,而且为后续提高油料作物含油量的遗传改良提供了候选基因资源。
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来源期刊
Plant Diversity
Plant Diversity Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
8.30
自引率
6.20%
发文量
1863
审稿时长
35 days
期刊介绍: Plant Diversity (formerly Plant Diversity and Resources) is an international plant science journal that publishes substantial original research and review papers that advance our understanding of the past and current distribution of plants, contribute to the development of more phylogenetically accurate taxonomic classifications, present new findings on or insights into evolutionary processes and mechanisms that are of interest to the community of plant systematic and evolutionary biologists. While the focus of the journal is on biodiversity, ecology and evolution of East Asian flora, it is not limited to these topics. Applied evolutionary issues, such as climate change and conservation biology, are welcome, especially if they address conceptual problems. Theoretical papers are equally welcome. Preference is given to concise, clearly written papers focusing on precisely framed questions or hypotheses. Papers that are purely descriptive have a low chance of acceptance. Fields covered by the journal include: plant systematics and taxonomy- evolutionary developmental biology- reproductive biology- phylo- and biogeography- evolutionary ecology- population biology- conservation biology- palaeobotany- molecular evolution- comparative and evolutionary genomics- physiology- biochemistry
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