Title :
Controlling cell behavior using their high-resolution light-sensing capability [Engineering in Genomics]
Author :
Miller, Danielle ; Joshi, Amruta ; Garner, Harold
Author_Institution :
Dept. of Biochem. & Internal Med., Univ. of Texas Southwestern Med. Center at Dallas, Dallas, TX
Abstract :
To gain control over the cellular environment for the study and manipulation of biological systems, it is important to understand the signals and stimuli that provoke cellular mechanisms. Techniques for the perturbation and analysis at the single-cell resolution are crucial for understanding the behavior and mechanisms within the cellular environment. Thus, there is a need for the development of a new technology with the capability to manipulate and study individual cells. One promising technology utilizes light as a mechanism for delivering an active signal to cells. As light can be directed with exquisite precision in time and space, this presents an advantageous delivery system for initiating and controlling signaling events.
Keywords :
biochemistry; biological effects of ultraviolet radiation; bioluminescence; cellular biophysics; mechanoception; molecular biophysics; perturbation theory; radiation pressure; biochemical signal; cancer; cell behavior; cellular environment; cellular mechanism; cellular stimuli; high resolution light sensing; perturbation; photocaging technology; single cell resolution; ultraviolet effect; Bioinformatics; Biological control systems; Cells (biology); DNA; Genomics; Humans; Instruments; Lighting control; Space technology; Stress; Cell Physiological Phenomena; Fibroblasts; Humans; Light; Optics and Photonics; Photobiology; Pseudopodia; Ultraviolet Rays;
Journal_Title :
Engineering in Medicine and Biology Magazine, IEEE
DOI :
10.1109/MEMB.2008.929892
