Title :
Systems biology: from physiology to gene regulation
Author :
Khammash, Mustafa ; El-Samad, Hana
Author_Institution :
Dept. of Mechanical & Environ. Eng., California Univ., Santa Barbara, CA, USA
Abstract :
The discovery of DNA and its essential role in cellular function has revolutionized the science of biology. Rapid progress in biology has led to new and exciting discoveries that promise to uncover the basic underpinnings of life. As biology becomes quantitative, the role of mathematics becomes important. Furthermore, the complex nature of biology systems makes an integrative systems approach essential. In this article, the author focused on two areas where control theory can play a key role. Mathematical modeling has not only helped reverse engineer biological systems, but it has also made forward engineering possible. If this opportunity is seized, control theory becomes the bridge between the technological sciences and the life sciences.
Keywords :
biocontrol; control engineering; feedback; genetics; molecular biophysics; physiological models; biology systems; calcium homeostasis; cellular function; control theory; endocrinology; gene regulation; integral feedback; integrative systems approach; mathematical modeling; physiology; Biological systems; Bridges; Cells (biology); Control theory; DNA; Mathematical model; Mathematics; Physiology; Reverse engineering; Systems biology;
Journal_Title :
Control Systems, IEEE
DOI :
10.1109/MCS.2004.1316654
