行为与脑部疾病的突触组理论。

Seth G N Grant
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引用次数: 19

摘要

这篇文章的目的是概述一种新的分子和突触行为理论,称为“突触组理论”,因为它以突触组为中心而得名,突触组是大脑中突触的补充。突触组理论认为,突触是在大脑图谱中可以观察到的具有高度分子复杂性和巨大多样性的结构,这些突触组图谱是行为的基础。突触组图是一种书写或存储信息的方法,这些信息可以通过刺激突触的活动模式来检索。突触组图具有存储大量信息的能力,包括同一图中的多个表示。突触的动态特性允许突触组映射存储动态的表征序列,这些表征序列可以用于编程行为序列。突触组图是遗传编程和经验依赖的,因此分别存储先天和后天的行为。虽然学习是通过突触蛋白质组的修饰发生的,但它不需要突触重量的长期增强(LTP)或新突触的生长,该理论预测LTP调节信息回忆。突触组图谱的空间结构源于一种潜在的分子层次结构,它将基因组与蛋白质的超分子组装连接在一起,形成复合物和超复合物。这种分子层次结构可以解释基因组进化如何导致生物体的行为特征。破坏这种分子层次的突变改变了突触组图谱的结构,潜在地解释了与神经和精神疾病相关的行为表型。
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The Synaptomic Theory of Behavior and Brain Disease.

The purpose of this article is to outline a new molecular and synaptic theory of behavior called the "synaptomic theory," named because it is centered on the synaptome-the complement of synapses in the brain. Synaptomic theory posits that synapses are structures of high molecular complexity and vast diversity that are observable in maps of the brain and that these synaptome maps are fundamental to behavior. Synaptome maps are a means of writing or storing information that can be retrieved by the patterns of activity that stimulate synapses. Synaptome maps have the capacity to store large amounts of information, including multiple representations within the same map. The dynamic properties of synapses allow synaptome maps to store dynamic sequences of representations that could serve to program behavioral sequences. Synaptome maps are genetically programmed and experience-dependent, thereby storing innate and learned behaviors, respectively. Although learning occurs by modification of the synapse proteome, it does not require long-term potentiation (LTP) of synaptic weight or growth of new synapses, and the theory predicts that LTP modulates information recall. The spatial architecture of synaptome maps arise from an underlying molecular hierarchy linking the genome to the supramolecular assembly of proteins into complexes and supercomplexes. This molecular hierarchy can explain how genome evolution results in the behavioral repertoire of the organism. Mutations disrupting this molecular hierarchy change the architecture of synaptome maps, potentially accounting for the behavioral phenotypes associated with neurological and psychiatric disorders.

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