DNA as a Double-Coding Device for Information Conversion and Organization of a Self-Referential Unity.

DNA Pub Date : 2024-11-19 DOI:10.3390/dna4040032

Georgi Muskhelishvili, William Nasser, Sylvie Reverchon, Andrew Travers

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Abstract

Living systems are capable on the one hand of eliciting a coordinated response to changing environments (also known as adaptation), and on the other hand, they are capable of reproducing themselves. Notably, adaptation to environmental change requires the monitoring of the surroundings, while reproduction requires monitoring oneself. These two tasks appear separate and make use of different sources of information. Yet, both the process of adaptation as well as that of reproduction are inextricably coupled to alterations in genomic DNA expression, while a cell behaves as an indivisible unity in which apparently independent processes and mechanisms are both integrated and coordinated. We argue that at the most basic level, this integration is enabled by the unique property of the DNA to act as a double coding device harboring two logically distinct types of information. We review biological systems of different complexities and infer that the inter-conversion of these two distinct types of DNA information represents a fundamental self-referential device underlying both systemic integration and coordinated adaptive responses.

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DNA作为信息转换和自我参照统一组织的双重编码装置。

生命系统一方面能够对不断变化的环境做出协调一致的反应（也被称为适应），另一方面，它们能够自我繁殖。值得注意的是，适应环境变化需要监测周围环境，而繁殖需要监测自己。这两项任务似乎是分开的，并且使用不同的信息源。然而，无论是适应过程还是繁殖过程都与基因组DNA表达的改变密不可分，而细胞的行为是一个不可分割的整体，在这个整体中，表面上独立的过程和机制都是整合和协调的。我们认为，在最基本的层面上，这种整合是由DNA作为双重编码设备的独特属性实现的，该设备包含两种逻辑上不同的信息类型。我们回顾了不同复杂性的生物系统，并推断这两种不同类型的DNA信息的相互转换代表了系统整合和协调适应反应的基本自我参照装置。

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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