Extreme-value analysis in nano-biological systems: Applications and Implications

Kumiko Hayashi, Nobumichi Takamatsu, Shunki Takaramoto
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Abstract

Extreme value analysis (EVA) is a statistical method that studies the properties of extreme values of datasets, crucial for fields like engineering, meteorology, finance, insurance, and environmental science. EVA models extreme events using distributions such as Fr\'echet, Weibull, or Gumbel, aiding in risk prediction and management. This review explores EVA's application to nanoscale biosystems. Traditionally, biological research focuses on average values from repeated experiments. However, EVA offers insights into molecular mechanisms by examining extreme data points. We introduce EVA's concepts with simulations and review its use in studying motor protein movements within cells, highlighting the importance of in vivo analysis due to the complex intracellular environment. We suggest EVA as a tool for extracting motor proteins' physical properties in vivo and discuss its potential in other biological systems. While EVA's use in nanoscale biological systems is limited, it holds promise for uncovering hidden properties in extreme data, promoting its broader application in life sciences.
纳米生物系统中的极值分析:应用与影响
极值分析(EVA)是一种研究数据集极值特性的统计方法,对工程、气象、金融、保险和环境科学等领域至关重要。EVA 使用 Fr\'echet 、Weibull 或 Gumbel 等分布对极端事件进行建模,有助于风险预测和管理。这篇综述探讨了 EVA 在小尺度生物系统中的应用。传统上,生物研究侧重于重复实验的平均值。然而,EVA 可通过研究极端数据点深入了解分子机制。我们通过模拟介绍了 EVA 的概念,并回顾了它在研究细胞内运动蛋白运动中的应用,强调了由于细胞内环境复杂而进行活体分析的重要性。我们建议将 EVA 作为提取体内运动蛋白物理特性的工具,并讨论了它在其他生物系统中的应用潜力。虽然 EVA 在纳米级生物系统中的应用有限,但它有望揭示极端数据中隐藏的特性,从而促进其在生命科学领域的更广泛应用。
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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