Kinetic logic

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In theoretical biology, kinetic logic is a kind of temporal logic that allows one to describe tendencies in a regulatory system to evolve based on its current state, and is particularly useful in the study of biological feedback, whether homeostatic or epigenetic. In general, kinetic logic avoids continuous descriptions that use differential equations, instead preferring symbolic descriptions where the elements of the state are approximated by Boolean variables and functions.

Kinetic logic was proposed by the French biologist René Thomas.

Contents 1 See also 2 Bibliography 2.1 Books 2.2 Papers

[edit] See also

• Boolean delay equations

[edit] Bibliography

[edit] Books

• Thomas, René (ed.) (1979). Kinetic logic: a Boolean approach to the analysis of complex regulatory systems, Lecture notes in Biomathematics 29. Springer-Verlag. ISBN 0-387-09556-X. OCLC 5447473. 
• Thomas, René; D'Ari, Richard (1990). Biological feedback. CRC Press. ISBN 0-849-36766-2. OCLC 20357419. 

[edit] Papers

• Thomas, René (1973). "Boolean formulization of genetic control circuits". Journal of Theoretical Biology 42: 565–583. doi:10.1016/0022-5193(73)90247-6.