Kruppel-Like 转录因子调控大连紫海胆性腺脂类物质代谢机制研究

项目名称： Kruppel-Like 转录因子调控大连紫海胆性腺脂类物质代谢机制研究

项目编号： No.31472313

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 农业科学

项目作者： 刘小林

作者单位： 西北农林科技大学

项目金额： 89万元

中文摘要： 大连紫海胆是重要的经济养殖动物，其性腺脂类物质丰富，具有较好的保健功能。尽管海胆脂类物质合成方面已有较多研究，但是在转录水平研究脂代谢调控机制仍然较为薄弱。本研究以S.nudus海胆性腺为研究对象，利用染色体免疫共沉淀与深度测序技术以及其他多项先进技术，克隆海胆性腺KLF5、7和15基因，分析其序列特征、在生殖细胞和储藏细胞中的表达模式、与共调控因子的结合特点、对PPARs的转录调控功能以及PPARs对脂代谢相关靶基因的转录刺激活性。并结合代谢组学技术分析脂类物质与靶基因表达之间相关性；在此基础上，利用转基因技术，在模式细胞和线虫中表达KLF基因，对其功能特点进行验证，从而在转录和物质代谢水平分析海胆KLF基因对脂代谢的调控机制及作用特点。该研究填补了这方面的研究空白，为进一步全面而深入地研究海胆脂代谢机制提供了重要的理论依据；同时，本研究结果对于指导海胆育种和种质保存也有重要的借鉴价值。

中文关键词： 海胆；性腺；脂质代谢；调控；KLF转录因子

英文摘要： The Dalian purple sea urchin, Strongylocentrotus nudus, is the important cultivation animal due to its economic and health care gonads consisting of high content of lipids. However, research regarding transcript regulation on lipids metabolism is absent yet. In this research, functions of Kruppel-like transcript factor genes upon lipid metabolism will be elucidated. First, KLF 5,7and 15 genes are cloned from gonads of S.nudus at two development stage as materials, and its sequence features such as functional domains, protein-binding motifs and evolution are investigated. Then, the expressional profile with its partner genes, interaction with CtBP and sin3A, co-regulation with C/EBPs in PPARs transcriptional activation are studied by in situ RNA hybridization, transcriptome, BiFC and EMSA methods, respectively. Second, the target genes of KLF-activite PPARs involving in lipid metabolism are identified and characterized by the chromosome immunity co-precipitation-solexa sequencing and bioinformatics tools. Furthermore, the interaction of target genes and PPARs will be valided by EMSA and proteomics approach. Co-relationship analysis of down-stream genes of KLF-activite PPARs with data of species and quantity of lipids in gonad are calculated according Two-Way ANOVA, p<0.01. Third, sea urchin KLF 5,7and 15 gene are introduced into model systems, 3T3-L1 cells and KLF mutation Caenorhabditis elegans, to carry out functional analysis including adipocyte differentiation, lipid metabolism and expressional change of lipid matabolism related genes, thereby the similarity and unique properties of sea urchin KLFs with that of Homo sapiens and C. elegans will be revealed. Collectively, the regulation mechanism and properties of KLFs on lipid metabolism at different development stage in gonad of S.nudus will be presented. The results of this study will not only deepen our knowledge regarding the mechanism of KLFs controlling lipid metabolism at transcript level, but also conducive to breeding and germplasm preservation in sea urchin.

英文关键词： Sea Urchin;Gonad;Lipid Metabolism;Regulation;KLF transcript factor