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Highly parallel genomic assays

被引:270
作者
Fan, Jian-Bing
Chee, Mark S.
Gunderson, Kevin L.
机构
[1] Illumina Inc, San Diego, CA 92121 USA
[2] Prognosys Biosci Inc, La Jolla, CA 92037 USA
来源
NATURE REVIEWS GENETICS | 2006年 / 7卷 / 08期
关键词
D O I
10.1038/nrg1901
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
Recent developments in highly parallel genome-wide assays are transforming the study of human health and disease. High-resolution whole-genome association studies of complex diseases are finally being undertaken after much hypothesizing about their merit for finding disease loci. The availability of inexpensive high-density SNP-genotyping arrays has made this feasible. Cancer biology will also be transformed by high-resolution genomic and epigenomic analysis. In the future, most cancers might be staged by high-resolution molecular profiling rather than by gross cytological analysis. Here, we describe the key developments that enable highly parallel genomic assays.
引用
收藏
页码:632 / 644
页数:13
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共 156 条
  • [1] ADAMS CP, 1997, Patent No. 5641658
  • [2] Solid phase DNA amplification: characterisation of primer attachment and amplification mechanisms
    Adessi, Celine
    Matton, Gilles
    Ayala, Guidon
    Turcatti, Gerardo
    Mermod, Jean-Jacques
    Mayer, Pascal
    Kawashima, Eric
    [J]. NUCLEIC ACIDS RESEARCH, 2000, 28 (20) : 87
  • [3] Tumour class prediction and discovery by microarray-based DNA methylation analysis -: art. no. e21
    Adorján, P
    Distler, J
    Lipscher, E
    Model, F
    Müller, J
    Pelet, C
    Braun, A
    Florl, AR
    Gütig, D
    Grabs, G
    Howe, A
    Kursar, M
    Lesche, R
    Leu, E
    Lewin, A
    Maier, S
    Müller, V
    Otto, T
    Scholz, C
    Schulz, WA
    Seifert, HH
    Schwope, I
    Ziebarth, H
    Berlin, K
    Piepenbrock, C
    Olek, A
    [J]. NUCLEIC ACIDS RESEARCH, 2002, 30 (05) : e21
  • [4] Light-directed 5′→3′ synthesis of complex oligonucleotide microarrays -: art. no. e35
    Albert, TJ
    Norton, J
    Ott, M
    Richmond, T
    Nuwaysir, K
    Nuwaysir, EF
    Stengele, KP
    Green, RD
    [J]. NUCLEIC ACIDS RESEARCH, 2003, 31 (07) : e35
  • [5] A haplotype map of the human genome
    Altshuler, D
    Brooks, LD
    Chakravarti, A
    Collins, FS
    Daly, MJ
    Donnelly, P
    Gibbs, RA
    Belmont, JW
    Boudreau, A
    Leal, SM
    Hardenbol, P
    Pasternak, S
    Wheeler, DA
    Willis, TD
    Yu, FL
    Yang, HM
    Zeng, CQ
    Gao, Y
    Hu, HR
    Hu, WT
    Li, CH
    Lin, W
    Liu, SQ
    Pan, H
    Tang, XL
    Wang, J
    Wang, W
    Yu, J
    Zhang, B
    Zhang, QR
    Zhao, HB
    Zhao, H
    Zhou, J
    Gabriel, SB
    Barry, R
    Blumenstiel, B
    Camargo, A
    Defelice, M
    Faggart, M
    Goyette, M
    Gupta, S
    Moore, J
    Nguyen, H
    Onofrio, RC
    Parkin, M
    Roy, J
    Stahl, E
    Winchester, E
    Ziaugra, L
    Shen, Y
    [J]. NATURE, 2005, 437 (7063) : 1299 - 1320
  • [6] Andreadis J D, 2000, Nucleic Acids Res, V28, pe5, DOI 10.1093/nar/28.2.e5
  • [7] Optical mapping and its potential for large-scale sequencing projects
    Aston, C
    Mishra, B
    Schwartz, DC
    [J]. TRENDS IN BIOTECHNOLOGY, 1999, 17 (07) : 297 - 302
  • [8] Signal amplification of padlock probes by rolling circle replication
    Banér, J
    Nilsson, M
    Mendel-Hartvig, M
    Landegren, U
    [J]. NUCLEIC ACIDS RESEARCH, 1998, 26 (22) : 5073 - 5078
  • [9] Barany F, 1991, PCR Methods Appl, V1, P5, DOI 10.1101/gr.1.1.5
  • [10] Comparative genomic hybridization using oligonucleotide microarrays and total genomic DNA
    Barrett, MT
    Scheffer, A
    Ben-Dor, A
    Sampas, N
    Lipson, D
    Kincaid, R
    Tsang, P
    Curry, B
    Baird, K
    Meltzer, PS
    Yakhini, Z
    Bruhn, L
    Laderman, S
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2004, 101 (51) : 17765 - 17770
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