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The Biophysics of Regenerative Repair Suggests New Perspectives on Biological Causation

Bioessays 42 (2):1900146 (2020)

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Thinking in 3 dimensions: philosophies of the microenvironment in organoids and organs-on-chip.Silvia Caianiello, Marta Bertolaso & Guglielmo Militello - 2023 - History and Philosophy of the Life Sciences 45 (2):1-35.details Organoids and organs-on-a-chip are currently the two major families of 3D advanced organotypic in vitro culture systems, aimed at reconstituting miniaturized models of physiological and pathological states of human organs. Both share the tenets of the so-called “three-dimensional thinking”, a Systems Physiology approach focused on recapitulating the dynamic interactions between cells and their microenvironment. We first review the arguments underlying the “paradigm shift” toward three-dimensional thinking in the in vitro culture community. Then, through a historically informed account of the technical (...) Download Export citation Bookmark
Agency, Goal-Directed Behavior, and Part-Whole Relationships in Biological Systems.Richard Watson - 2024 - Biological Theory 19 (1):22-36.details In this essay we aim to present some considerations regarding a minimal but concrete notion of agency and goal-directed behavior that are useful for characterizing biological systems at different scales. These considerations are a particular perspective, bringing together concepts from dynamical systems, combinatorial problem-solving, and connectionist learning with an emphasis on the relationship between parts and wholes. This perspective affords some ways to think about agents that are concrete and quantifiable, and relevant to some important biological issues. Instead of advocating (...) Download Export citation Bookmark
Genetic Causation in Complex Regulatory Systems: An Integrative Dynamic Perspective.James DiFrisco & Johannes Jaeger - 2020 - Bioessays 42 (6):1900226.details The logic of genetic discovery has changed little over time, but the focus of biology is shifting from simple genotype–phenotype relationships to complex metabolic, physiological, developmental, and behavioral traits. In light of this, the traditional reductionist view of individual genes as privileged difference‐making causes of phenotypes is re‐examined. The scope and nature of genetic effects in complex regulatory systems, in which dynamics are driven by regulatory feedback and hierarchical interactions across levels of organization are considered. This review argues that it (...) Download Export citation Bookmark 7 citations

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