Versatile system cores as a conceptual basis for generality in cell and developmental biology.

Cell systems Pub Date : 2024-09-18 Epub Date: 2024-09-04 DOI:10.1016/j.cels.2024.08.001

Elisa Gallo, Stefano De Renzis, James Sharpe, Roberto Mayor, Jonas Hartmann

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Abstract

The discovery of general principles underlying the complexity and diversity of cellular and developmental systems is a central and long-standing aim of biology. While new technologies collect data at an ever-accelerating rate, there is growing concern that conceptual progress is not keeping pace. We contend that this is due to a paucity of conceptual frameworks that support meaningful generalizations. This led us to develop the core and periphery (C&P) hypothesis, which posits that many biological systems can be decomposed into a highly versatile core with a large behavioral repertoire and a specific periphery that configures said core to perform one particular function. Versatile cores tend to be widely reused across biology, which confers generality to theories describing them. Here, we introduce this concept and describe examples at multiple scales, including Turing patterning, actomyosin dynamics, multi-cellular morphogenesis, and vertebrate gastrulation. We also sketch its evolutionary basis and discuss key implications and open questions. We propose that the C&P hypothesis could unlock new avenues of conceptual progress in mesoscale biology.

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多功能系统核心是细胞和发育生物学通用性的概念基础。

发现细胞和发育系统的复杂性和多样性所蕴含的一般原理是生物学长期以来的核心目标。虽然新技术收集数据的速度不断加快，但人们越来越担心概念方面的进展跟不上步伐。我们认为，这是由于缺乏支持有意义的概括的概念框架。因此，我们提出了 "核心与外围"（C&P）假说，认为许多生物系统都可以分解为一个具有大量行为剧目的多功能核心和一个特定的外围，前者将上述核心配置为执行某一特定功能。多功能核心往往在整个生物学中被广泛重复使用，这就赋予了描述它们的理论以通用性。在这里，我们介绍了这一概念，并描述了多个尺度上的实例，包括图灵模式、肌动蛋白动力学、多细胞形态发生和脊椎动物胃形成。我们还概述了它的进化基础，并讨论了其主要影响和悬而未决的问题。我们认为，C&P假说可以为中尺度生物学的概念进步开辟新的途径。

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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Cell systems

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