MX Biotech Ltd., Jerusalem, Israel.
ACS Chem Neurosci. 2013 Jun 19;4(6):983-93. doi: 10.1021/cn300237r. Epub 2013 Mar 21.
We propose a tripartite mechanism to describe the processing of cognitive information (cog-info), comprising the (1) neuron, (2) surrounding neural extracellular matrix (nECM), and (3) numerous "trace" metals distributed therein. The neuron is encased in a polyanionic nECM lattice doped with metals (>10), wherein it processes (computes) and stores cog-info. Each [nECM:metal] complex is the molecular correlate of a cognitive unit of information (cuinfo), similar to a computer "bit". These are induced/sensed by the neuron via surface iontophoretic and electroelastic (piezoelectric) sensors. The generic cuinfo are used by neurons to biochemically encode and store cog-info in a rapid, energy efficient, but computationally expansive manner. Here, we describe chemical reactions involved in various processes that underline the tripartite mechanism. In addition, we present novel iconographic representations of various types of cuinfo resulting from"tagging" and cross-linking reactions, essential for the indexing cuinfo for organized retrieval and storage of memory.
我们提出了一个三方机制来描述认知信息(cog-info)的处理过程,包括(1)神经元、(2)周围的神经细胞外基质(nECM)和(3)其中分布的大量“痕量”金属。神经元被包裹在掺杂有金属(>10)的聚阴离子 nECM 晶格中,在其中处理(计算)和存储 cog-info。每个[nECM:金属]复合物都是认知信息单位(cuinfo)的分子相关物,类似于计算机“位”。这些是通过神经元表面离子电泳和电弹性(压电)传感器感应/感知的。神经元使用通用的 cuinfo 以快速、节能但计算量庞大的方式进行生物化学编码和存储 cog-info。在这里,我们描述了各种过程中涉及的化学反应,这些反应构成了三方机制的基础。此外,我们还展示了各种类型的 cuinfo 的新图标表示,这些 cuinfo 是通过“标记”和交联反应产生的,对于对 cuinfo 进行索引以进行有组织的检索和存储记忆是必不可少的。