Switchable Systems for Spatio-Temporal Control of Gene Expression in Zebrafish

用于斑马鱼基因表达时空控制的可切换系统

• 批准号: 7465438
• 负责人: Alexander Deiters
• 金额: $ 28.8万
• 依托单位: NORTH CAROLINA STATE UNIVERSITY RALEIGH
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-08-01 至 2012-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7465438
• 关键词: Binding; Biological; Catalytic RNA; Cells; Chemicals; Communities; Development; Down-Regulation; Embryo; Embryonic Development; Engineering; Functional RNA; Gene Expression; Gene Expression Regulation; Genes; Goals; Human Genetics; In Vitro; Individual; Internet; Isomerism; Light; Mediating; Methodology; Methods; Modeling; Object Attachment; Oligonucleotides; Organic Synthesis; Organism; Plasmids; Protocols documentation; RNA; RNA Binding; RNA Interference; RNA Sequences; Receptor Cell; Recovery; Regulation; Research Personnel; Resolution; Switch Genes; System; Technology; Toxic effect; Transgenes; Transgenic Organisms; Zebrafish; aptamer; base; gene function; human disease; infancy; interest; irradiation; knock-down; novel; phosphodiester; programs; receptor; small molecule; spatiotemporal; tool; transgene expression; ultraviolet irradiation

DESCRIPTION (provided by applicant): The zebrafish (Danio rerio) has become a powerful model for investigating the genetics of human disease and development; however, there is currently no mechanism for dissecting embryonic gene function in a switchable, spatio-temporal manner. The overall goal of this project is to develop multiple mechanisms for spatio-temporal control of gene and transgene expression in zebrafish via light irradiation. The specific intent is to utilize small photo-activatable (photo-caged) and photo-switchable organic compounds to tightly regulate ribozyme and riboswitch function using UV light. These RNA based methods will be utilized to control gene and transgene expression within the developing zebrafish embryo. Our strategies are based on: 1) the ability to synthesize photo-activatable and photo-switchable compounds, 2) the ability to select allosteric ribozymes in vitro whose activity relies on the presence of specific organic compounds, 3) the ability to select short RNA sequences (RNA aptamers) in vitro that bind selectively organic compounds, and 4) the ability to combine 1-3 to create light-responsive switches for activation and deactivation of gene expression in zebrafish. The Specific Aims are to: 1. Develop systems for photochemical control of RNA function. We will synthesize non-toxic, cell permeable, photo-responsive small organic molecules and in vitro select ribozymes that can be activated by these molecules in conjunction with UV light. Moreover, RNA aptamers will be evolved in a way that their binding to these molecules can be modulated with UV light. 2. Develop systems for photochemically mediated gene regulation. Specifically we will demonstrate spatio- temporal control of gene knock-down in zebrafish embryos in an irreversible and a reversible manner using irradiation with UV light. 3. Develop systems for photochemically mediated transgene regulation. Specifically, we will demonstrate spatio-temporal control of transgene expression in zebrafish embryos in an irreversible and a reversible manner using irradiation with UV light. All developed components (e.g. photoresponsive small organic molecules, allosteric ribozymes, RNA. aptamers, expression plasmids, etc.) and protocols (e.g. for organic synthesis, UV irradiation, etc.) will be made accessible to the scientific community via a dedicated web-page.

描述（由申请人提供）：斑马鱼（Danio rerio）已成为研究人类疾病和发育遗传学的强大模型;然而，目前还没有以可切换的时空方式解剖胚胎基因功能的机制。本项目的总体目标是通过光照射在斑马鱼中开发用于时空控制基因和转基因表达的多种机制。其具体目的是利用小的光激活（光笼）和光开关的有机化合物，使用紫外光严格调节核酶和核糖开关功能。这些基于RNA的方法将用于控制发育中的斑马鱼胚胎内的基因和转基因表达。我们的战略基于：1）合成可光活化和可光转换的化合物的能力，2）在体外选择其活性依赖于特定有机化合物的存在的变构核酶的能力，3）选择短RNA序列的能力，（RNA适体）在体外选择性结合有机化合物，和4）能够将联合收割机1-3组合以产生用于激活和失活斑马鱼中基因表达的光响应开关。具体目标是：1.开发RNA功能的光化学控制系统。我们将合成无毒，细胞可渗透，光响应的小有机分子，并在体外选择可以被这些分子与紫外线结合激活的核酶。此外，RNA适体将以这样的方式进化，即它们与这些分子的结合可以用UV光来调节。2.开发光化学介导的基因调控系统。具体地说，我们将证明时空控制基因敲低在斑马鱼胚胎中以不可逆和可逆的方式使用紫外线照射。3.开发光化学介导的转基因调控系统。具体来说，我们将展示时空控制转基因表达在斑马鱼胚胎中的不可逆和可逆的方式使用紫外线照射。所有开发的组分（例如光响应小有机分子，变构核酶，RNA。适体、表达质粒等）和方案（例如用于有机合成、UV照射等）将通过一个专门的网页向科学界提供。