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摘要翻译:
在本文中,我们将试图提供一个形式化的生物系统发展的一些特征的目标是最高水平的充分性:合理的充分性,即不仅我们观察到什么(描述性充分性)和我们认为它是如何发生的(解释性充分性),而且什么建筑性质(例如,就物质配置而言)许可某些现象的发生。在物理系统的生物实例的情况下,在基因型-表型动力学中可以找到合理的充分性。此外,我们将主张这种动力学应该从数学的观点来分析,因为基因型对初始条件非常敏感:系统某一状态的微小变化可能会对输出产生剧烈的影响。在方法学方面,我们将使用应用于生物学和物理遗传学的混沌理论来构建我们的研究,并赋予其理论上的分量。
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英文标题:
《Biological Systems as Systems of Increasing Entropy: Language and
Genetics》
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作者:
Diego Gabriel Krivochen
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最新提交年份:
2016
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分类信息:
一级分类:Physics 物理学
二级分类:Chaotic Dynamics 混沌动力学
分类描述:Dynamical systems, chaos, quantum chaos, topological dynamics, cycle expansions, turbulence, propagation
动力系统,混沌,量子混沌,拓扑动力学,循环展开,湍流,传播
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一级分类:Quantitative Biology 数量生物学
二级分类:Other Quantitative Biology 其他定量生物学
分类描述:Work in quantitative biology that does not fit into the other q-bio classifications
不适合其他q-bio分类的定量生物学工作
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英文摘要:
In this paper we will try to provide a formalization of some characteristics of the development of biological systems aiming at the highest level of adequacy: justificative adequacy, that is, not only what we observe (descriptive adequacy) and how we think it occurs (explanatory adequacy) but also what architectural properties (in terms of matter configuration, for example) license the occurrence of certain phenomena. In the case of a biological instantiation of a physical system, justificative adequacy is to be found in the genotype-phenotype dynamics. Moreover, we will claim that such dynamics should be analyzed from a mathematical point of view, since the genotype is hypersensitive to initial conditions: a small change in a certain state of the system may have drastic effects on the output. Regarding methodology, we will use chaos theory applied to biology and also physical genetics in order to frame our research and give it theoretical weight.
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PDF链接:
https://arxiv.org/pdf/1210.3740
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