C. Jacob, and I. Burleigh. Genetic Programming Theory and Practice III, volume 9 of Genetic Programming, chapter 13, Springer, Ann Arbor, (12-14 May 2005)
Abstract
Gene Regulation and Self-Organization: Inspirations
from Genetic Programming in vivo
We present an agent-based, 3D model of the lactose
(lac) operon, a gene regulatory system in the bacterium
E. coli. The lac operon is a prime example of a _real
genetic programming_ system, which has been studied
extensively and lends itself to rigorous mathematical
analysis and computational simulations. We suggest
natural gene regulatory systems, as observed within E.
coli, to serve as testbeds for future in silico genetic
programming systems.
%0 Book Section
%1 jacob:2005:GPTP
%A Jacob, Christian
%A Burleigh, Ian
%B Genetic Programming Theory and Practice III
%C Ann Arbor
%D 2005
%E Yu, Tina
%E Riolo, Rick L.
%E Worzel, Bill
%I Springer
%K Agent-based Bioinformatics, Biological Gene Intelligence, Lactose Modelling, Operon, Regulatory Self-Organisation Simulation, Swarm System, agent, algorithms, gene genetic programming, regulation,
%P 191--206
%T Genetic Programming inside a Cell
%V 9
%X Gene Regulation and Self-Organization: Inspirations
from Genetic Programming in vivo
We present an agent-based, 3D model of the lactose
(lac) operon, a gene regulatory system in the bacterium
E. coli. The lac operon is a prime example of a _real
genetic programming_ system, which has been studied
extensively and lends itself to rigorous mathematical
analysis and computational simulations. We suggest
natural gene regulatory systems, as observed within E.
coli, to serve as testbeds for future in silico genetic
programming systems.
%& 13
%@ 0-387-28110-X
@incollection{jacob:2005:GPTP,
abstract = {Gene Regulation and Self-Organization: Inspirations
from Genetic Programming in vivo
We present an agent-based, 3D model of the lactose
(lac) operon, a gene regulatory system in the bacterium
E. coli. The lac operon is a prime example of a _real
genetic programming_ system, which has been studied
extensively and lends itself to rigorous mathematical
analysis and computational simulations. We suggest
natural gene regulatory systems, as observed within E.
coli, to serve as testbeds for future in silico genetic
programming systems.},
added-at = {2008-06-19T17:35:00.000+0200},
address = {Ann Arbor},
author = {Jacob, Christian and Burleigh, Ian},
biburl = {https://www.bibsonomy.org/bibtex/23bb51cec201ee997b90a9beb65665de8/brazovayeye},
booktitle = {Genetic Programming Theory and Practice {III}},
chapter = 13,
editor = {Yu, Tina and Riolo, Rick L. and Worzel, Bill},
interhash = {4d66f791da00ca1ca6513a3db014240b},
intrahash = {3bb51cec201ee997b90a9beb65665de8},
isbn = {0-387-28110-X},
keywords = {Agent-based Bioinformatics, Biological Gene Intelligence, Lactose Modelling, Operon, Regulatory Self-Organisation Simulation, Swarm System, agent, algorithms, gene genetic programming, regulation,},
month = {12-14 May},
notes = {part of \cite{yu:2005:GPTP} Published Jan 2006 after
the workshop},
pages = {191--206},
publisher = {Springer},
series = {Genetic Programming},
size = {16 pages},
timestamp = {2008-06-19T17:42:19.000+0200},
title = {Genetic Programming inside a Cell},
volume = 9,
year = 2005
}