权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

ORDER OF NEUROGENESIS AND PATTERNS OF NERVE CONNECTIONS

神经发生的顺序和神经连接的模式

基本信息

批准号：
3398949
负责人：
JOSEPH ALTMAN
金额：
$ 12.48万
依托单位：
PURDUE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
1983
资助国家：
美国
起止时间：
1983-01-01 至 1986-12-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3398949
关键词：
autoradiography brain mapping embryo /fetus inferior colliculus mature animal spinal cord mapping

项目摘要

We propose to test the hypothesis that the precise temporal order of neuron production and the first come - first served principle are essential factors in assuring the development of orderly topographic nerve connections. Specifically, as to which fibers of a sender structure will reach a target site first or last and which receiver neurons will be first or last available to arriving fibers will depend not only on the temporal order of neuron production within and between structures but also on the spatial relations within and between them. Therefore, it is postulated that the first come - first served principle may take four basic forms: (i) temporo-temporal (earliest sender neurons contacting earliest receiver neurons, and vice versa); (ii) temporo-spatial (earliest sender neurons contacting nearest receiver neurons); (iii) spatio-temporal (nearest-to-earliest connections), and (iv) spatio-spatial (nearest-to-nearest connections). Three major studies will be carried out to test this hypothesis. First, we will complete the normative dating of the birth dates of neurons throughout the rat nervous system, using the new, progressively delayed cumulative labeling procedure. The structures evaluated quantitatively will include the cochlea, the eye, the dorsal root ganglia, and specific areas of the neocortex. Second, in methacrylate-embedded whole embryos we will (i) locate the neuroepithelial zones that correspond to the neurogenetic zones identified in adults with thymidine-radiography; (ii) trace the migratory paths of young neurons from the former to the latter regions; and (iii) date the outgrowth of early fiber tracts and trace their trajectories. Third, in an attempt to experimentally evaluate the operation of the first come - first served principle, HRP and other tracers will be injected into selected central and peripheral structures in embryos of different ages. These structures will include the forelimbs and hind limbs, the cervial and lumbar spinal cord, specific regions of the sensory areas and the motor area of the neocortex, the eye, and, if possible, the inner ear.

我们提出测试假设，神经元的精确时间顺序生产和先到先得的原则是必不可少的保证局部神经有序发育的因素连接. 具体地，关于发送器结构的哪些纤维将首先或最后到达目标位置，以及哪些接收器神经元将首先到达或者最后可用于到达光纤的时间将不仅取决于时间结构内和结构之间的神经元产生顺序，它们之间的空间关系。因此，假设先到先得的原则可以有四种基本形式： (i)时间-时间（最早发送神经元接触最早接收神经元）神经元，反之亦然）;（ii）时空（最早的发送神经元接触最近的接收器神经元）;（iii）时空（最早的连接），以及（iv）空间-空间（最近到最近的连接）。将开展三项主要研究来验证这个假设首先，我们将完成标准的日期，整个大鼠神经系统神经元的出生日期，使用新的，渐进延迟的累积标记程序。的结构定量评估将包括耳蜗，眼睛，背根神经节和新皮层的特定区域。二是甲基丙烯酸酯包埋的整个胚胎，我们将（i）定位神经上皮与成人中确定的神经发生区相对应的区域，胸腺嘧啶射线照相术;（ii）追踪年轻神经元的迁移路径，（三）第一个区域;（四）第二个区域;（五）第三个区域。纤维束并追踪它们的轨迹第三，为了实验性地评估先到先得的操作原则上，HRP和其他示踪剂将被注射到选定的中央和不同年龄胚胎的外周结构。这些结构将包括前肢和后肢，颈脊髓和腰脊髓，新皮层的感觉区和运动区的特定区域，眼睛，如果可能的话，还有内耳。