来自河豚的3.6 kb基因组序列,能够促进发育中和再生的斑马鱼神经元中轴突生长相关基因的表达。
3.6 kb genomic sequence from Takifugu capable of promoting axon growth-associated gene expression in developing and regenerating zebrafish neurons.
作者信息
Udvadia Ava J
机构信息
University of Wisconsin - Milwaukee, Department of Biological Sciences, Great Lakes WATER Institute UWM-GLWI, 600 E. Greenfield Avenue, Milwaukee, WI 53204, United States.
出版信息
Gene Expr Patterns. 2008 Jul;8(6):382-388. doi: 10.1016/j.gep.2008.05.002. Epub 2008 May 24.
Abstract
Unlike mammals, fish have the capacity for functional adult CNS regeneration, which is due, in part, to their ability to express axon growth-related genes in response to nerve injury. One such axon growth-associated gene is gap43, which is expressed during periods of developmental and regenerative axon growth, but is not expressed in CNS neurons that do not regenerate in adult mammals. We previously demonstrated that cis-regulatory elements of gap43 that are sufficient for developmental expression are not sufficient for regenerative expression in the zebrafish. Here we have identified a 3.6kb genomic sequence from Fugu rubripes that can promote reporter gene expression in the nervous system during both development and regeneration in zebrafish. This compact sequence is advantageous for functional dissection of regions important for axon growth-associated gene expression during development and/or regeneration. In addition, this sequence will also be useful for targeting gene expression to neurons during periods of growth and plasticity.
摘要
与哺乳动物不同,鱼类具有成年中枢神经系统功能再生的能力,这部分归因于它们在神经损伤后表达轴突生长相关基因的能力。一种这样的与轴突生长相关的基因是gap43,它在发育和再生轴突生长期间表达,但在成年哺乳动物中不进行再生的中枢神经系统神经元中不表达。我们之前证明,对于斑马鱼发育表达而言足够的gap43顺式调控元件,对于其再生表达并不足够。在此,我们从红鳍东方鲀中鉴定出一段3.6kb的基因组序列,该序列在斑马鱼发育和再生期间均可促进神经系统中的报告基因表达。这段紧凑的序列有利于对发育和/或再生期间轴突生长相关基因表达重要的区域进行功能剖析。此外,该序列对于在生长和可塑性期间将基因表达靶向神经元也将是有用的。
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