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http://dx.doi.org/10.13067/JKIECS.2013.8.11.1875

Implementation of User Interface for DNA Micro Array Printing Technology  

Park, Jae-Sam (인천대학교 전자공학과)
Publication Information
The Journal of the Korea institute of electronic communication sciences / v.8, no.12, 2013 , pp. 1875-1882 More about this Journal
Abstract
Micro-array technology contributes numerous achievements such as ordering of gene network and integration of genomic. This technology is well established as means for investigating patterns of gene expression. DNA micro-arrays utilize Affymetric chips where a large quantity of DNA sequences may be synthesized. There are two general type of conventional DNA array spotter: contact and piezoelectric. The contact technology used spotting pin technology to make contact with the glass slide surface. This may caused damage or scratches to the surface matrix where protein will be contaminated and may not bind specifically. Piezoelectric technology available at this present time on the other hand requires the analyzer to print the result that can only be done within the laboratory despite of mass production. Therefore, in this paper, high-throughput technology is developed for providing greater consistency in feature spot without touching the glass slide surface.
Keywords
CoreChart Software; Deoxyribonucleic Acid (DNA); Micro Array Spotting; Piezoelectric;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Yong-ho Jeon, Whang Cho, "Nonlinear and Adaptive Back-Stepping Speed Control of IPMSM", The Journal of The Korea Institute of Electronic Communication Sciences, Vol. 6, No. 6, pp. 855-864, 2011.   과학기술학회마을
2 Genome Resource Facility 2007, Micro array overview, viewed 28 May 2007.
3 Field, S, Udalova, I & Ragoussis, J 2006, Accuracy and Reproducibility of Protein-DNA Micro array Technology, viewed 28 May 2007.
4 Peacock, C 2007, Making sense of the USB standard, Beyond Logic, viewed 1 Jun 2007.
5 Microchip Technology Inc., viewed 8 Jun 2007
6 Universal Serial Bus Device Class Definition for Printing Devices 2000, USB Communication Device Class Definition for Printer Devices, viewed 4 Jun 2007.
7 Epson Stylus Photo R230 2007.
8 eLabtronics 2006, Chore Chart, viewed 16 Jun 2007.
9 Microsoft Developer Network 2007, CByte Function, viewed 16 Jun 2007.
10 Lichtel, D 2004, Implementing a USB Equipment Interface Using the Microchip PIC 16C745, viewed 20 Jun 2007.
11 Microarray Station (2006-2007), DNA Microarray History Timeline, viewed on 6 July 2007.
12 Brooklyn Academic 2006, DNA Structure, viewed 8 July 2007.
13 Glick, BR & Pasternak, JJ 1998, Molecular Biotechnology : principles and applications of recombinant DNA, 2ndEdition, ASM Press, Washington.
14 Condit, R, Butler, D & Microchip Technology Inc. 2003, Low Cost USB Microcontroller Programmer: The building of the $PICkit^{TM}$ 1 FLASH Starter Kit.
15 Hp, Le Technologies, Inc., Beaverton, Oregon Progress and Trends in Ink-jet Printing Technology, Journal of Imaging Science and Technology, Vol. 42, No. 1, pp. 49-62. 1998.
16 Mark Schena, Renu A. Heller, Thomas P. Theriault, Ken Konrad, Eric Lachenmeier and Ronald W. Davis, Microarrays: Biotechnology's Discovery Platform for Functional Genomics, Elsevier Science Ltd, Vol. 16, Science 270, pp. 467-470, 1998.
17 Chang-Hwan Kim, "Robust Disturbance Suppression Control for AC Servo Motors", The Journal of The Korea Institute of Electronic Communication Sciences, Vol. 7, No. 4, pp. 839-848, 2012.   과학기술학회마을
18 Won-bu Lee, Soo-hong Park, "Development of the Servo Motion controller using Gyro Sensor" The Journal of The Korea Institute of Electronic Communication Sciences, Vol. 5, No. 5, pp. 493-497, 2010.   과학기술학회마을