The Differential Method and the Causal Incompleteness of Programming Theory in Molecular Biology |
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| Authors: | Giuseppe Longo Pierre-Emmanuel Tendero |
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| Institution: | (1) Laboratoire d’Informatique, CNRS et école Normale Supérieure, Paris, France;(2) CREA, école Polytechnique, Paris, France |
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| Abstract: | The “DNA is a program” metaphor is still widely used in Molecular Biology and its popularization. There are good historical
reasons for the use of such a metaphor or theoretical model. Yet we argue that both the metaphor and the model are essentially
inadequate also from the point of view of Physics and Computer Science. Relevant work has already been done, in Biology, criticizing the programming paradigm. We will refer to empirical evidence
and theoretical writings in Biology, although our arguments will be mostly based on a comparison with the use of differential
methods (in Molecular Biology: a mutation or alike is observed or induced and its phenotypic consequences are observed) as
applied in Computer Science and in Physics, where this fundamental tool for empirical investigation originated and acquired
a well-justified status. In particular, as we will argue, the programming paradigm is not theoretically sound as a causal(as in Physics) or deductive(as in Programming) framework for relating the genome to the phenotype, in contrast to the physicalist and computational grounds that this paradigm claims
to propose.
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| Keywords: | Genome Programming theory Differential methods in Physics and Biology System Biology |
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