Title :
Closed chamber PCR chips for DNA amplification
Author :
Schabmueller, C.G.J. ; Lee, M.A. ; Evans, A.G.R. ; Brunnschweiler, A. ; Ensell, G.J. ; Leslie, D.L.
Author_Institution :
Dept. of Electron. & Comput. Sci., Southampton Univ., UK
fDate :
12/1/2000 12:00:00 AM
Abstract :
Small samples of DNA can be replicated (amplified) using the polymerase chain reaction (PCR) to produce sufficient quantities for analysis in the diagnosis of disease and in forensics. Low-cost single-shot PCR devices are desirable to avoid potential contamination of the sample reaction with products of a previous reaction. After explaining the principles of PCR amplification and optical detection of the products this paper describes the fabrication of a micromachined silicon/Pyrex-based chip for the PCR using standard micromachining processes. The reaction chamber has a volume of 1 μl. Pyrex is used for sealing the chamber and its transparency enables the use of optical detection methods. Incorporated heating and sensing elements allow fast heating and control of the chip. A Peltier element is used for cooling the chip to achieve rapid temperature cycling. Some performance data are presented
Keywords :
DNA; biomedical engineering; cooling; micromachining; polymers; DNA amplification; PCR amplification; Peltier element; biomedical engineering; chip cooling; closed chamber PCR chips; disease diagnosis; forensics; micromachined silicon/Pyrex-based chip; micromachining processes; optical detection methods; polymerase chain reaction; rapid temperature cycling; reaction chamber;
Journal_Title :
Engineering Science and Education Journal
DOI :
10.1049/esej:20000605
