学术探索
学术期刊
新闻热点
数据分析
智能评审

PolymiRTS Database: linking polymorphisms in microRNA target sites with complex traits

被引:117
作者
Bao, Lei
Zhou, Mi
Wu, Ligang
Lu, Lu
Goldowitz, Dan
Williams, Robert W.
Cui, Yan
机构
[1] Univ Tennessee, Ctr Hlth Sci, Dept Mol Sci, Memphis, TN 38163 USA
[2] Univ Tennessee, Ctr Hlth Sci, Ctr Genomics & Bioinformat, Memphis, TN 38163 USA
[3] Univ Tennessee, Ctr Hlth Sci, Dept Anat & Neurobiol, Memphis, TN 38163 USA
[4] Univ Tennessee, Ctr Hlth Sci, Dept Pediat, Memphis, TN 38163 USA
[5] NYU, Sch Med, Skirball Inst Biomol Med, New York, NY USA
[6] Nantong Univ, Key Lab Nerve Regenerat, Nantong, Jiangsu, Peoples R China
来源
NUCLEIC ACIDS RESEARCH | 2007年 / 35卷
基金
美国国家卫生研究院;
关键词
D O I
10.1093/nar/gkl797
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Polymorphism in microRNA Target Site (PolymiRTS) database is a collection of naturally occurring DNA variations in putative microRNA target sites. PolymiRTSs may affect gene expression and cause variations in complex phenotypes. The database integrates sequence polymorphism, phenotype and expression microarray data, and characterizes PolymiRTSs as potential candidates responsible for the quantitative trait locus (QTL) effects. It is a resource for studying PolymiRTSs and their implications in phenotypic variations. PolymiRTS database can be accessed at http://compbio.utmem.edu/miRSNP/.
引用
收藏
页码:D51 / D54
页数:4
相关论文
共 29 条
  • [1] Merlin-rapid analysis of dense genetic maps using sparse gene flow trees
    Abecasis, GR
    Cherny, SS
    Cookson, WO
    Cardon, LR
    [J]. NATURE GENETICS, 2002, 30 (01) : 97 - 101
  • [2] The functions of animal microRNAs
    Ambros, V
    [J]. NATURE, 2004, 431 (7006) : 350 - 355
  • [3] Combining gene expression QTL mapping and phenotypic spectrum analysis to uncover gene regulatory relationships
    Bao, Lei
    Wei, Lai
    Peirce, Jeremy L.
    Homayouni, Ramin
    Li, Hongqiang
    Zhou, Mi
    Chen, Hao
    Lu, Lu
    Williams, Robert W.
    Pfeffer, Lawrence M.
    Goldowitz, Dan
    Cui, Yan
    [J]. MAMMALIAN GENOME, 2006, 17 (06) : 575 - 583
  • [4] Barrett T, 2005, NUCLEIC ACIDS RES, V33, pD562
  • [5] MicroRNAs: Genomics, biogenesis, mechanism, and function (Reprinted from Cell, vol 116, pg 281-297, 2004)
    Bartel, David P.
    [J]. CELL, 2007, 131 (04) : 11 - 29
  • [6] Relief of microRNA-mediated translational repression in human cells subjected to stress
    Bhattacharyya, Suvendra N.
    Habermacher, Regula
    Martine, Ursula
    Closs, Ellen I.
    Filipowicz, Witold
    [J]. CELL, 2006, 125 (06) : 1111 - 1124
  • [7] A comparison of normalization methods for high density oligonucleotide array data based on variance and bias
    Bolstad, BM
    Irizarry, RA
    Åstrand, M
    Speed, TP
    [J]. BIOINFORMATICS, 2003, 19 (02) : 185 - 193
  • [8] Principles of MicroRNA-target recognition
    Brennecke, J
    Stark, A
    Russell, RB
    Cohen, SM
    [J]. PLOS BIOLOGY, 2005, 3 (03): : 404 - 418
  • [9] WebQTL: Rapid exploratory analysis of gene expression and genetic networks for brain and behavior
    Chesler, EJ
    Lu, L
    Wang, JT
    Williams, RW
    Manly, KF
    [J]. NATURE NEUROSCIENCE, 2004, 7 (05) : 485 - 486
  • [10] A mutation creating a potential illegitimate microRNA target site in the myostatin gene affects muscularity in sheep
    Clop, Alex
    Marcq, Fabienne
    Takeda, Haruko
    Pirottin, Dimitri
    Tordoir, Xavier
    Bibe, Bernard
    Bouix, Jacques
    Caiment, Florian
    Elsen, Jean-Michel
    Eychenne, Francis
    Larzul, Catherine
    Laville, Elisabeth
    Meish, Francoise
    Milenkovic, Dragan
    Tobin, James
    Charlier, Carole
    Georges, Michel
    [J]. NATURE GENETICS, 2006, 38 (07) : 813 - 818
123