Eye Development: Molecular Genetics of Nuclear Migration

眼睛发育：核迁移的分子遗传学

• 批准号: 6861722
• 负责人: JANICE A. FISCHER
• 金额: $ 22.5万
• 依托单位: UNIVERSITY OF TEXAS AT AUSTIN
• 依托单位国家: 美国
• 财政年份: 2002
• 资助国家: 美国
• 起止时间: 2002-04-01 至 2007-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6861722
• 关键词: Drosophilidae; antibody; arthropod genetics; brain disorders; cell nucleus; compound eye; confocal scanning microscopy; developmental genetics; developmental neurobiology; eye; gene expression; genetic screening; genetically modified animals; immunologic techniques; intracellular transport; molecular cloning; molecular genetics; neurogenetics; organelles; protein binding; protein localization; protein protein interaction; protein structure function; tissue /cell culture; transmission electron microscopy; visual photoreceptor

It is proposed to characterize the genes and gene products required for developmentally regulated nuclear migrations in photoreceptors of the Drosophila compound eye. Nuclear migration is of universal importance in animal development. For example, the human brain disorder, Lissencephaly, is the result of neural nuclei failing to migrate appropriately during brain development. Moreover, the Drosophila homolog of the human Lissencephaly gene, Lis1, is essential for photoreceptor nuclear migrations in Drosophila. Thus, the genes and proteins that will be identified and studied are directly relevant to human development and disease. Nuclear migration is an important phenomenon to understand also because of its relationship to other critical processes in eukaryotic development. Many of the proteins important for nuclear migration are also required for the transport of other organelles, establishment of cell polarity, and morphogen localization within the cell. There are four specific goals of the research proposed. The first is a structure/function analysis of Klarsicht, a protein required for photoreceptor nuclear migration. Transgenic flies expressing partial Klarsicht proteins will be used to correlate subcellular localization, protein binding, and organelle migration functions with protein structure. The second aim is to clone and characterize the egk1 gene, which like klarsicht, is essential for photoreceptor nuclear migration. Thirdly, antibodies to a variety of proteins will be used to order four nuclear migration genes, klarsicht, egk1, BicD and DLis-1, into a pathway. In addition, the possibility of physical interactions between Klarsicht and Egk1 proteins will be explored using in vivo and in vitro assays. Finally, a variety of different genetic screening approaches will be used to identify additional genes in the klarsicht/egk1 pathway.

它提出的特点所需的基因和基因产物的发育调控的果蝇复眼感光细胞核迁移。核迁移在动物发育中具有普遍的重要性。 例如，人类大脑疾病，无脑畸形，是由于神经核在大脑发育过程中未能适当迁移的结果。 此外，果蝇同源的人类无脑畸形基因，Lis 1，是必不可少的感光细胞核迁移在果蝇。 因此，将被鉴定和研究的基因和蛋白质与人类发育和疾病直接相关。核迁移是一个重要的现象，也因为它与真核生物发育中的其他关键过程的关系。 许多对核迁移重要的蛋白质也是其他细胞器的运输、细胞极性的建立和细胞内形态发生定位所必需的。提出了四个具体的研究目标。 首先是Klarsicht的结构/功能分析，Klarsicht是感光细胞核迁移所需的蛋白质。 表达部分Klarsicht蛋白的转基因果蝇将用于将亚细胞定位、蛋白结合和细胞器迁移功能与蛋白结构相关联。 第二个目标是克隆和鉴定egk 1基因，它和klarsicht一样，是感光细胞核迁移所必需的。 第三，针对多种蛋白质的抗体将用于将四个核迁移基因klarsicht、egk 1、BicD和DLis-1排序到一个通路中。 此外，Klarsicht和Egk 1蛋白之间的物理相互作用的可能性将使用体内和体外试验进行探索。 最后，将使用各种不同的遗传筛选方法来鉴定klarsicht/egk 1途径中的其他基因。