OPUS: Robustness and complexity: how evolution builds precise traits from sloppy components

OPUS：稳健性和复杂性：进化如何从草率的组成部分构建精确的特征

• 批准号: 2325755
• 负责人: Steven Frank
• 金额: $ 24.68万
• 依托单位: University of California-Irvine
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2024
• 资助国家: 美国
• 起止时间: 2024-04-01 至 2026-03-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2325755&HistoricalAwards=false
• 关键词: OPUS; Robustness; complexity; how; evolution

Organisms often repair damage to their tissues and correct errors in their physiology. Similarly, humans often try to make their engineered systems perform robustly, recovering from damage and errors. This project develops the similarities and differences in how natural biological processes and human engineering build robustly performing systems. Understanding the principles by which organisms are built to perform well provides insight into how things sometimes go wrong and how disease develops. For example, our bodies have many different mechanisms to protect against cancer. The time to failure for systems with multiple protections follows the same pattern in both biology and engineering. By understanding these general characteristics of robustness and failure, we understand better how biological organisms are built, how they fail, and how such principles apply also to human engineered systems. Prior studies by this researcher and many other scientists have developed basic understanding of the principles of robustness and failure. However, the ways in which these insights apply to many problems in biology have not been developed completely. This project will bring together the separate studies of the past into a more complete synthesis. That synthesis will help us to apply what we know to a wider range of problems. The synthesis will also help us to see more clearly what we do not understand, identifying the challenges that need further study.How do organisms actually make relatively precise traits from inherently stochastic and often unreliable biological components? How does precision arise from sloppiness? We know many pieces of the puzzle. Redundancy and extra capacity provide backup. Robustness keeps organisms on track. Repair fixes damage. Signal processing and control follow classic engineering principles. These various mechanisms for regulating traits have important consequences for evolutionary dynamics. For example, when a system corrects component-level errors, the direct selective pressure on component performance declines. Weakened selective pressure on components may cause those components to become less reliable, maintain more genetic variability, or drift neutrally in design, creating the basis for new forms of organismal complexity. To understand how these pieces of the puzzle fit together, recent advances in engineering control theory, computational machine learning, and artificial intelligence augment evolutionary theory to provide a broad conceptual foundation. This project builds on that modern conceptual foundation to synthesize diverse biological theories and to unify a wide variety of biological observations.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

生物体经常修复其组织的损伤并纠正其生理学中的错误。同样，人类经常尝试让他们的工程系统稳健运行，从损坏和错误中恢复。该项目研究了自然生物过程和人类工程如何构建强大的性能系统的相似点和差异。了解生物体表现良好的原理可以帮助我们深入了解有时会出现问题以及疾病是如何发展的。例如，我们的身体有许多不同的机制来预防癌症。具有多重保护的系统的故障时间在生物学和工程学上都遵循相同的模式。通过了解稳健性和故障的这些一般特征，我们可以更好地了解生物有机体是如何构建的、它们是如何故障的，以及这些原理如何适用于人类工程系统。这位研究人员和许多其他科学家之前的研究已经对稳健性和失效原理有了基本的了解。然而，这些见解应用于许多生物学问题的方式尚未完全开发出来。该项目将把过去的单独研究整合成一个更完整的综合体。这种综合将帮助我们将我们所知道的知识应用于更广泛的问题。这种综合还将帮助我们更清楚地看到我们不理解的东西，识别需要进一步研究的挑战。生物体实际上是如何从本质上随机且通常不可靠的生物成分中产生相对精确的性状的？精确如何从马虎中产生？我们知道这个难题的许多部分。冗余和额外容量提供备份。稳健性使生物体保持在正轨上。修复修复损坏。信号处理和控制遵循经典的工程原理。这些调节性状的不同机制对进化动力学具有重要影响。例如，当系统纠正组件级错误时，对组件性能的直接选择压力就会下降。组件上的选择性压力减弱可能会导致这些组件变得不太可靠，保持更多的遗传变异性，或者在设计中中性漂移，从而为新形式的有机体复杂性奠定基础。为了理解这些难题如何组合在一起，工程控制理论、计算机器学习和人工智能的最新进展增强了进化论，提供了广泛的概念基础。该项目建立在现代概念基础上，综合不同的生物学理论并统一各种生物学观察结果。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。