Microarray-based genomic selection for high-throughput resequencing

被引:0
|
作者
David T Okou
Karyn Meltz Steinberg
Christina Middle
David J Cutler
Thomas J Albert
Michael E Zwick
机构
[1] Emory University School of Medicine,Department of Human Genetics
[2] Program in Population Biology,undefined
[3] Ecology and Evolution,undefined
[4] Emory University,undefined
[5] NimbleGen Systems,undefined
[6] Inc.,undefined
[7] 1 Science Court,undefined
来源
Nature Methods | 2007年 / 4卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
We developed a general method, microarray-based genomic selection (MGS), capable of selecting and enriching targeted sequences from complex eukaryotic genomes without the repeat blocking steps necessary for bacterial artificial chromosome (BAC)-based genomic selection. We demonstrate that large human genomic regions, on the order of hundreds of kilobases, can be enriched and resequenced with resequencing arrays. MGS, when combined with a next-generation resequencing technology, can enable large-scale resequencing in single-investigator laboratories.
引用
收藏
页码:907 / 909
页数:2
相关论文
共 50 条
  • [31] The use of high-throughput phenotyping in genomic selection context
    Persa, Reyna
    de Oliveira Ribeiro, Pedro Cesar
    Jarquin, Diego
    CROP BREEDING AND APPLIED BIOTECHNOLOGY, 2021, 21
  • [32] High-throughput, high-accuracy array-based resequencing
    Zheng, Jianbiao
    Moorhead, Martin
    Weng, Li
    Siddiqui, Farooq
    Carlton, Victoria E. H.
    Ireland, James S.
    Lee, Liana
    Peterson, Joseph
    Wilkins, Jennifer
    Lin, Sean
    Kan, Zhengyan
    Seshagiri, Somasekar
    Davis, Ronald W.
    Faham, Malek
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2009, 106 (16) : 6712 - 6717
  • [33] Validation of Microarray-Based Resequencing of 93 Worldwide Mitochondrial Genomes
    Hartmann, Anne
    Thieme, Marian
    Nanduri, Lahiri K.
    Stempfl, Thomas
    Moehle, Christoph
    Kivisild, Toomas
    Oefner, Peter J.
    HUMAN MUTATION, 2009, 30 (01) : 115 - 122
  • [34] High-throughput microarray comparative genomic analyses of Xylella fastidiosa strains
    Yao, J.
    Doddapaneni, H.
    Lin, H.
    Civerolo, E. L.
    PHYTOPATHOLOGY, 2006, 96 (06) : S127 - S128
  • [35] Evaluation of High-Throughput PCR and Microarray-Based Assay in Conjunction with Automated DNA Extraction Instruments for Diagnosis of Sepsis
    Laakso, Sanna
    Kirveskari, Juha
    Tissari, Paivi
    Maki, Minna
    PLOS ONE, 2011, 6 (11):
  • [36] Evidence for evolution and selection of drought-resistant genes based on high-throughput resequencing in weedy rice
    Han, Bing
    Cui, Di
    Ma, Xiaoding
    Cao, Guilan
    Zhang, Hui
    Koh, Hee-Jong
    Han, Longzhi
    JOURNAL OF EXPERIMENTAL BOTANY, 2022, 73 (07) : 1949 - 1962
  • [37] Overlapping pools for high-throughput targeted resequencing
    Prabhu, Snehit
    Pe'er, Itsik
    GENOME RESEARCH, 2009, 19 (07) : 1254 - 1261
  • [38] Selective/Specific substrates for HNE, CatG, Pr3 from microarray-based protease high-throughput screening
    Koini, E. N.
    Avlonitis, N.
    Bradley, M.
    JOURNAL OF PEPTIDE SCIENCE, 2012, 18 : S74 - S75
  • [39] High-throughput targeted resequencing of lung adenocarcinoma.
    Kim, Byung Chul
    Kim, Eun-Hye
    Ghim, Byoung-Chul
    Choi, So-Jung
    Lee, Jinseon
    Kim, Jhingook
    JOURNAL OF CLINICAL ONCOLOGY, 2012, 30 (15)
  • [40] High-throughput digital capillary microarray
    Qiu Y.-J.
    Li J.-Z.
    Li C.-Y.
    Zhang Z.-Q.
    Zhou L.-Q.
    Guangxue Jingmi Gongcheng/Optics and Precision Engineering, 2019, 27 (06): : 1237 - 1244
12345