De novo identification and biophysical characterization of transcription-factor binding sites with microfluidic affinity analysis

被引:0
|
作者
Polly M Fordyce
Doron Gerber
Danh Tran
Jiashun Zheng
Hao Li
Joseph L DeRisi
Stephen R Quake
机构
[1] University of California,Department of Biochemistry and Biophysics
[2] San Francisco,Department of Life Sciences
[3] Howard Hughes Medical Institute,Departments of Bioengineering and Applied Physics
[4] Bar Ilan University,undefined
[5] Stanford University,undefined
[6] Center for Theoretical Biology,undefined
[7] Peking University,undefined
来源
Nature Biotechnology | 2010年 / 28卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Fordyce et al. measure the sequence specificity and affinity of DNA-binding proteins using an improved microfluidic device. They characterize binding of 28 yeast transcription factors, several of which had proved intractable to previous approaches.
引用
收藏
页码:970 / 975
页数:5
相关论文
共 50 条
  • [1] De novo identification and biophysical characterization of transcription-factor binding sites with microfluidic affinity analysis
    Fordyce, Polly M.
    Gerber, Doron
    Tran, Danh
    Zheng, Jiashun
    Li, Hao
    DeRisi, Joseph L.
    Quake, Stephen R.
    NATURE BIOTECHNOLOGY, 2010, 28 (09) : 970 - 976
  • [2] Genome-wide identification of transcription factors and transcription-factor binding sites in oleaginous microalgae Nannochloropsis
    Jianqiang Hu
    Dongmei Wang
    Jing Li
    Gongchao Jing
    Kang Ning
    Jian Xu
    Scientific Reports, 4
  • [3] Genome-wide identification of transcription factors and transcription-factor binding sites in oleaginous microalgae Nannochloropsis
    Hu, Jianqiang
    Wang, Dongmei
    Li, Jing
    Jing, Gongchao
    Ning, Kang
    Xu, Jian
    SCIENTIFIC REPORTS, 2014, 4
  • [4] The design of transcription-factor binding sites is affected by combinatorial regulation
    Bilu, Y
    Barkai, N
    GENOME BIOLOGY, 2005, 6 (12)
  • [5] The design of transcription-factor binding sites is affected by combinatorial regulation
    Yonatan Bilu
    Naama Barkai
    Genome Biology, 6
  • [6] Toward an atomistic model for predicting transcription-factor binding sites
    Endres, RG
    Schulthess, TC
    Wingreen, NS
    PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS, 2004, 57 (02) : 262 - 268
  • [7] Modelling and identification of transcription-factor binding motifs in human chondrogenesis
    不详
    SYSTEMS BIOLOGY, 2004, 1 (01): : 85 - 92
  • [8] De novo motif identification improves the accuracy of predicting transcription factor binding sites in ChIP-Seq data analysis
    Boeva, Valentina
    Surdez, Didier
    Guillon, Noelle
    Tirode, Franck
    Fejes, Anthony P.
    Delattre, Olivier
    Barillot, Emmanuel
    NUCLEIC ACIDS RESEARCH, 2010, 38 (11) : e126 - e126
  • [9] Genome-wide prediction of mammalian enhancers based on analysis of transcription-factor binding affinity
    Hallikas, O
    Palin, K
    Sinjushina, N
    Rautiainen, R
    Partanen, J
    Ukkonen, E
    Taipale, J
    CELL, 2006, 124 (01) : 47 - 59
  • [10] Biophysical Fitness Landscapes for Transcription Factor Binding Sites
    Haldane, Allan
    Manhart, Michael
    Morozov, Alexandre V.
    PLOS COMPUTATIONAL BIOLOGY, 2014, 10 (07)
12345