Constraint-based reasoning in cell biology: on the explanatory role of context.

IF 1.6 3区 哲学 Q1 HISTORY & PHILOSOPHY OF SCIENCE
Karl S Matlin, Sara Green
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Abstract

Cell biologists, including those seeking molecular mechanistic explanations of cellular phenomena, frequently rely on experimental strategies focused on identifying the cellular context relevant to their investigations. We suggest that such practices can be understood as a guided decomposition strategy, where molecular explanations of phenomena are defined in relation to natural contextual (cell) boundaries. This "top-down" strategy contrasts with "bottom-up" reductionist approaches where well-defined molecular structures and activities are orphaned by their displacement from actual biological functions. We focus on the central role of microscopic imaging in cell biology to uncover possible constraints on the system. We show how identified constraints are used heuristically to limit possible mechanistic explanations to those that are biologically meaningful. Historical examples of this process described here include discovery of the mechanism of oxidative phosphorylation in mitochondria, molecular explanation of the first steps in protein secretion, and identification of molecular motors. We suggest that these instances are examples of a form of downward causation or, more specifically, constraining relations, where higher-level structures and variables delimit and enable lower-level system states. The guided decomposition strategy in our historical cases illustrates the irreducibility of experimentally identified constraints in explaining biological activities of cells. Rather than viewing decomposition and recomposition as separate epistemic activities, we contend that they need to be iteratively integrated to account for the ontological complexity of multi-level systems.

Abstract Image

细胞生物学中基于限制的推理:关于上下文的解释作用。
细胞生物学家,包括那些寻求对细胞现象进行分子机理解释的人,经常依赖于实验策略,重点是确定与其研究相关的细胞背景。我们认为,这种做法可以理解为一种有指导的分解策略,即根据自然环境(细胞)边界来定义对现象的分子解释。这种 "自上而下 "的策略与 "自下而上 "的还原论方法形成鲜明对比,在后者中,定义明确的分子结构和活动因脱离实际生物功能而成为孤儿。我们重点关注显微成像在细胞生物学中的核心作用,以发现系统可能存在的制约因素。我们展示了如何启发式地利用所发现的制约因素,将可能的机理解释限制在具有生物学意义的范围内。这里描述的这一过程的历史实例包括线粒体氧化磷酸化机制的发现、蛋白质分泌第一步的分子解释以及分子马达的鉴定。我们认为,这些实例是一种顺向因果关系或更具体地说是制约关系的例子,在这种关系中,高层结构和变量限定并促成了低层系统状态。我们历史案例中的引导分解策略说明,在解释细胞的生物活动时,实验确定的约束条件是不可还原的。我们不认为分解和重组是独立的认识活动,而是认为它们需要反复整合,以解释多层次系统本体论的复杂性。
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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来源期刊
History and Philosophy of the Life Sciences
History and Philosophy of the Life Sciences 综合性期刊-科学史与科学哲学
CiteScore
2.60
自引率
5.00%
发文量
58
期刊介绍: History and Philosophy of the Life Sciences is an interdisciplinary journal committed to providing an integrative approach to understanding the life sciences. It welcomes submissions from historians, philosophers, biologists, physicians, ethicists and scholars in the social studies of science. Contributors are expected to offer broad and interdisciplinary perspectives on the development of biology, biomedicine and related fields, especially as these perspectives illuminate the foundations, development, and/or implications of scientific practices and related developments. Submissions which are collaborative and feature different disciplinary approaches are especially encouraged, as are submissions written by senior and junior scholars (including graduate students).
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