“Analysis and Control of Biological Networks”
A Special Issue of Asian Journal of Control
http://www.ajc.org.tw
In systems biology, one of the ultra goals is to engineer unnatural organic molecules
that function in living systems to investigate natural biological phenomena and for
a variety of applications. In control engineering, the overall aim is to synthesize
controllers which can achieve desired performance. The notion of feedback, which is
the core of control engineering, is now a central recurring theme in the design of
biological regulatory networks. In fact, feedback is so prevalent in biological
systems that it can be found at all levels of organization, from the molecular and
cellular levels, to the organism and ecological levels. It is impossible to overstate
the importance of feedback as a strategy for the maintenance and evolution of life.
Therefore, it is reasonable to expect that ideas from control theory will lead to
new understanding of the underlying biological processes, and therefore have
potential applications in system biology and synthetic biology.
The complexity of biological networks (BNs) poses many challenges for scientists and
engineers. In particular, the biological systems have apparently become dependent on
the complex infrastructure of the networks to such an extent that it is difficult to
analyse and control these networks thoroughly with our current capabilities.
Therefore, there is an urgent need to research into modelling, analysis,
synchronization and control of BNs using the available systems and control theory.
Although many fundamental questions have been addressed with the hope to understand
network structures and dynamic properties, some major problems have not been fully
investigated, such as the behaviours of switching, oscillating, stability,
synchronization and chaos control for BNs, as well as their applications in systems
biology and bioinformatics.
This special issue aims to bring together the latest advances in analysis and control
of biological networks, which comprise gene regulatory networks, signal transduction
networks, metabolite networks and intra-species or interspecies communication networks in microbial communities. Topics of this special include, but are not limited to the following aspects: (1) systems and control analysis of BNs; (2) Modelling of BNs; (3) dynamics analysis of regulatory motifs; (4) robustness and fragility analysis of BNs; (5) synchronization of BNs; (6) design of synthetic BNs, and (7) methods and algorithms for BN analysis.
Guest Editors:
Prof. Luonan Chen
Osaka Sangyo University
Japan
E-mail: chen@eic.osaka-sandai.ac.jp
Prof. James Lam
The University of Hong Kong
China
E-mail: james.lam@hku.hk
Prof. Zidong Wang
Brunel University
United Kingdom
E-mail: Zidong.Wang@brunel.ac.uk
Important Dates:
Jan. 1, 2010 Call for Papers
June 30, 2010 Deadline for Paper Submission
Oct. 31, 2010 Completion of First Review
Feb. 28, 2011 Completion of Final Review
Sep. 30, 2011 Publication (Tentatively Vol.13, No.5)
Potential authors are strongly encouraged to upload the electronic file of their
manuscript (in PDF format) through journal website: http://mc.manuscriptcentral.com/asjc.
If you encounter any submission problem, feel free to contact Prof. Li-Chen Fu,
Editor-in-Chief:
Professor Li-Chen Fu
Department of Electrical Engineering, EE II-524
National Taiwan University
Taipei 10617, Taiwan
Tel: +886-2-3366-3558
Fax: +886-2-2365-4267
E-mail: lichen@ntu.edu.tw
All submission should include a title page containing the title of the paper, an abstract and a list of keywords, authors’ full names and affiliations, complete postal and electronic address, phone and fax numbers. The contacting author should be clearly identified. For detailed submission guidelines, please visit http://www.ajc.org.tw.
Please quote 10 Academic Resources Daily in your application to this opportunity!
