量子相互作用二元论:从贝克和埃克尔斯的胞分泌隧道模型到SNARE压缩的分子生物学

Danko D. Georgiev, J. Glazebrook
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引用次数: 8

摘要

我们首先概述了意识的物理理论所面临的挑战,并简要描述了基于经典力学或量子力学的两种主要方法。接下来,我们详细阐述了Beck和Eccles关于大脑中神经递质释放部位的心脑相互作用的著名模型的动机、理论构建和实验证伪。最后,我们提出了我们自己的振动辅助量子隧穿机制模型,涉及Davydov孤子沿着SNARE复合体(可溶性NSF附着蛋白受体;NSF, n -乙基马来酰亚胺敏感融合蛋白)驱动突触囊泡融合。我们还讨论了可能证伪我们模型的实验测试。由于挥发性麻醉剂的意识消除是由于与SNARE 4 -α-螺旋束的疏水核心结合造成的,因此我们的模型非常适合支持量子相互作用二元论。生物医学评论2014;25: 15 - 24。
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Quantum interactive dualism: From Beck and Eccles tunneling model of exocytosis to molecular biology of SNARE zipping
We commence this review by outlining the challenges faced by physical theories of consciousness and briefly describe the two main approaches based on classical or quantum mechanics. Next, we provide a detailed exposition of the motivation, the theoretical construction and experimental falsification of the celebrated model due to Beck and Eccles concerning mind-brain interaction purported to operate at the sites of neurotransmitter release in the brain. Finally, we propose our own model of a vibrationally assisted quantum tunneling mechanism involving a Davydov soliton propagating along the hydrogen bonds in the protein four-α-helix bundle of the SNARE complex (soluble NSF attachment protein receptor; NSF, N-ethylmaleimide sensitive fusion proteins) that drives synaptic vesicle fusion. We also discuss the possible experimental tests that could falsify our model. Since erasure of consciousness by volatile anesthetics results from binding to the hydrophobic core of the SNARE four-α-helix bundle, our model is well suited to support quantum interactive dualism. Biomedical Reviews 2014; 25: 15-24.
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