Thermal diffusion as a mechanism for biological transport.

F J Bonner, L O Sundelöf
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引用次数: 25

Abstract

Accumulated experimental information is used to assess the possible significance of thermal diffusion to mass transport in living matter. Possible thermal gradients across membranes, a single living cell, and an ensemble of such cells (e.g. an organ, tumor, etc.) are estimated. The corresponding model calculations, although not describing the biological process in detail, lead to conclusions about the possibilities for thermal diffusion as follows. Adequate thermal gradients to support substantial thermal diffusion could exist across biological membranes. Thermal diffusive flow would become significant when ordinary Fickian diffusion is sufficiently suppressed, e.g. in more concentrated systems near critical points of solution (i.e. near incipient phase separations). Conditions favorable to thermal diffusion functioning as a mechanism for active transport appear possible. Thermal diffusion appears much more important for transport into and out of an ensemble of cells than into or out of a single cell. Such mass transport by thermal diffusion could assume a sizable magnitude for an ensemble of cells with the dimensions of an organ or a tumor.

热扩散作为一种生物运输机制。
积累的实验信息被用来评估热扩散对生物物质中质量输运的可能意义。估计跨膜、单个活细胞和这些细胞的集合(如器官、肿瘤等)可能的热梯度。相应的模型计算虽然没有详细描述生物过程,但得出了热扩散可能性的结论如下。足够的热梯度支持大量的热扩散可能存在于生物膜之间。当普通的菲克式扩散得到充分抑制时,例如在溶液临界点附近(即初相分离附近)更浓的体系中,热扩散流动将变得显著。有利于热扩散作为主动输送机制的条件似乎是可能的。热扩散对于进出细胞群的运输似乎比进出单个细胞更为重要。这种通过热扩散进行的质量传递,对于一个器官或肿瘤大小的细胞群来说,可能具有相当大的规模。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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