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Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)peer-review

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Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology. / Gatherer, Derek.
Rethinking Biology: Public Understandings. ed. / Michael J Reiss; Fraser Watts; Harris Wiseman. Singapore: World Scientific Publishing Co. Pte Ltd, 2019. p. 33-58.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)peer-review

Harvard

Gatherer, D 2019, Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology. in MJ Reiss, F Watts & H Wiseman (eds), Rethinking Biology: Public Understandings. World Scientific Publishing Co. Pte Ltd, Singapore, pp. 33-58.

APA

Gatherer, D. (2019). Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology. In M. J. Reiss, F. Watts, & H. Wiseman (Eds.), Rethinking Biology: Public Understandings (pp. 33-58). World Scientific Publishing Co. Pte Ltd.

Vancouver

Gatherer D. Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology. In Reiss MJ, Watts F, Wiseman H, editors, Rethinking Biology: Public Understandings. Singapore: World Scientific Publishing Co. Pte Ltd. 2019. p. 33-58

Author

Gatherer, Derek. / Modelling versus Realisation : Rival Philosophies of Computational Theory in Systems Biology. Rethinking Biology: Public Understandings. editor / Michael J Reiss ; Fraser Watts ; Harris Wiseman. Singapore : World Scientific Publishing Co. Pte Ltd, 2019. pp. 33-58

Bibtex

@inbook{18304f00c18745ca9ec0d4b91fd3dc0e,
title = "Modelling versus Realisation: Rival Philosophies of Computational Theory in Systems Biology",
abstract = "Systems biology faces a choice between reductionist and holist approaches, but practising systems biologists are often unaware of what the implications of each path will be. Modern neo-holism, as manifested in Robert Rosen{\textquoteright}s Relational Biology, concludes that the functions of complex systems are irreducible to the functions of their component parts, and also implies that the current foundations of computational theory are inadequate for systems biology. By contrast, modern neo-reductionism replaces classical conceptions of inter-theory reduction with the looser concept of supervenience, in the process reassuring us that we can make progress in systems biology with computational theory as we know it today. However, the price to pay for this is a shift away from modelling to realisational strategies. Either way, the entire field of systems biology may have to change course if it is to accomplish its goals.",
author = "Derek Gatherer",
year = "2019",
month = oct,
day = "21",
language = "English",
isbn = "9789811207488",
pages = "33--58",
editor = "Reiss, {Michael J} and Fraser Watts and Harris Wiseman",
booktitle = "Rethinking Biology",
publisher = "World Scientific Publishing Co. Pte Ltd",
address = "Singapore",

}

RIS

TY - CHAP

T1 - Modelling versus Realisation

T2 - Rival Philosophies of Computational Theory in Systems Biology

AU - Gatherer, Derek

PY - 2019/10/21

Y1 - 2019/10/21

N2 - Systems biology faces a choice between reductionist and holist approaches, but practising systems biologists are often unaware of what the implications of each path will be. Modern neo-holism, as manifested in Robert Rosen’s Relational Biology, concludes that the functions of complex systems are irreducible to the functions of their component parts, and also implies that the current foundations of computational theory are inadequate for systems biology. By contrast, modern neo-reductionism replaces classical conceptions of inter-theory reduction with the looser concept of supervenience, in the process reassuring us that we can make progress in systems biology with computational theory as we know it today. However, the price to pay for this is a shift away from modelling to realisational strategies. Either way, the entire field of systems biology may have to change course if it is to accomplish its goals.

AB - Systems biology faces a choice between reductionist and holist approaches, but practising systems biologists are often unaware of what the implications of each path will be. Modern neo-holism, as manifested in Robert Rosen’s Relational Biology, concludes that the functions of complex systems are irreducible to the functions of their component parts, and also implies that the current foundations of computational theory are inadequate for systems biology. By contrast, modern neo-reductionism replaces classical conceptions of inter-theory reduction with the looser concept of supervenience, in the process reassuring us that we can make progress in systems biology with computational theory as we know it today. However, the price to pay for this is a shift away from modelling to realisational strategies. Either way, the entire field of systems biology may have to change course if it is to accomplish its goals.

M3 - Chapter (peer-reviewed)

SN - 9789811207488

SN - 9789811208263

SP - 33

EP - 58

BT - Rethinking Biology

A2 - Reiss, Michael J

A2 - Watts, Fraser

A2 - Wiseman, Harris

PB - World Scientific Publishing Co. Pte Ltd

CY - Singapore

ER -