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[2] Kurian KM, Watson C J, Wyllie AH. DNA chip technology. J Pathol, 1999,187(3):267-271.
[3] Skolnick AA. Russian and US researchers develop "biochips" for faster, inexpensive biomedical tests. JAMA, 1996,275 (8):581-582.
[4] Fodor SPA. Massively parallel genomics. Science, 1997,277 (18):393-395.
[5] Cheng J, Waters LC, Fortina P, et al. Degenerate oligonucleotide primed-polymerase chain reaction and capillary electrophoretic analysis of human DNA on microchip-based devices. Anal Biochem, 1998, 257(2):101-106.
[6] Cheng J, Fortina P, Surrey S, et al. Microchip-based Devices for Mo lecular Diagnosis of Genetic Diseases. Mol Diagn, 1996, 1 (3):183-200.
[7] Cheng J, Shoffner MA, Hvichia GE, et al. Chip PCR. ��. Investigation of different PCR amplification systems in microbabricated siliconglass chips. Nucleic Acids Res, 1996, 24(2):380-385.
[8] Wilding P, Kricka LJ, Cheng J, et al. Integrated cell isolation and polymerase chain reaction analysis using silicon microfilter chambers. Anal Biochem, 1998, 257(2):95-100.
[9] Lueking A, Horn M, Eickhoff H, et al. Protein microarrays for gene expression and antibody screening. Anal Biochem, 1999, 270(1):103-111.
[10] Lipshutz RJ, Morris D, Chee M, et al. Using oligonucleotide probe arrays to access genetic diversity. Biotechniques, 1995, 19 (3):442-447.
[11] Kozal M J, Shah N, Shen N, et al. Extensive polymorphisms observed in HIV-1 clade B protease gene using high-density oligonucleotide arrays. Nat Med, 1996, 2(7):753-759.
[12] Pastinen T, Liitsola K, Niini P, et al. Contribution of the CCR5 and MBL genes to susceptibility to HIV type 1 infection in the Finnish population. AIDS Res Hum Retroviruses, 1998, 14 (8):695-698.
[13] Mossman KL, Macgregor PF, Rozmus JJ, et al. Herpes simplex virus triggers and then disarms a host antiviral response. J Virol, 2001,75 (2):750-758.
[14] Stingley SW, Ramirez JJ, Aguilar SA, et al. Global analysis of herpessimplex virus type 1 transcription using an oligonucleotide-based DNA microarray. J Virol, 2000, 74(21):9916-9927.
[15] Dessus-Babus S, Knight ST, Wyrick PB. et al. Chlamydial infection of polarized HeLa cells induces PMN chemotaxis but the cytokine profile varies between disseminating and non-disseminating strains. Cell Microbiol, 2000, 2(4):317-327.
[16] Chambers J, Angulo A, Amaratunga D, et al. DNA microarrays of the complex human cytomagalovirus genome:profiling kinetic class with drug sensitivity of viral gene expression. J Virol, 1999, 73 (7):5757-5766.
[17] Zhu H, Cong JP, Mamtora G,et al. Cellular gene expression altered by human cytomegalovirus:global monitoring with oligonucleotide arrays. Proc Natl Acad Sci U S A, 1998, 95(24):14470-14475.