Genome-wide Search for Coaxial Helical Stacking Motifs

被引:0
|
作者
Byron, Kevin [1 ,2 ]
Wang, Jason T. L. [1 ,2 ]
Wen, Dongrong [1 ,2 ]
机构
[1] New Jersey Inst Technol, Bioinformat Program, Newark, NJ 07102 USA
[2] New Jersey Inst Technol, Dept Comp Sci, Newark, NJ 07102 USA
来源
IEEE 12TH INTERNATIONAL CONFERENCE ON BIOINFORMATICS & BIOENGINEERING | 2012年
关键词
coaxial helical stacking; genome-wide motif finding; RNA junction; RIBOSOMAL-SUBUNIT; RANDOM FORESTS; RNA; THERMODYNAMICS; IDENTIFICATION; JUNCTIONS;
D O I
暂无
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Motif finding in DNA, RNA and proteins plays an important role in life science research. In this paper, we present a computational approach to searching for RNA tertiary motifs in genomic sequences. Specifically, we describe a method, named CSminer, and show, as a case study, the application of CSminer to genome-wide search for coaxial helical stackings in RNA 3-way junctions. A coaxial helical stacking motif occurs in an RNA 3-way junction where two separate helical elements form a pseudocontiguous helix and provide thermodynamic stability to the RNA molecule as a whole. Experimental results demonstrate the effectiveness of our approach.
引用
收藏
页码:260 / 265
页数:6
相关论文
共 50 条
  • [21] SuperDCA for genome-wide epistasis analysis
    Puranen, Santeri
    Pesonen, Maiju
    Pensar, Johan
    Xu, Ying Ying
    Lees, John A.
    Bentley, Stephen D.
    Croucher, Nicholas J.
    Corander, Jukka
    MICROBIAL GENOMICS, 2018, 4 (06):
  • [22] Genome-wide association studies with metabolomics
    Adamski, Jerzy
    GENOME MEDICINE, 2012, 4
  • [23] Genome-wide search for signatures of selection in three major Brazilian locally adapted sheep breeds
    de Simoni Gouveia, Joao Jose
    Paiva, Samuel Rezende
    McManus, Concepta M.
    Caetano, Alexandre Rodrigues
    Kijas, James W.
    Faco, Olivardo
    Azevedo, Hymerson Costa
    de Araujo, Adriana Mello
    Hoff de Souza, Carlos Jose
    Yamagishi, Michel Eduardo B.
    Souza Carneiro, Paulo Luiz
    Braga Lobo, Raimundo Nonato
    Pinheiro de Oliveira, Sonia Maria
    da Silva, Marcos Vinicius G. B.
    LIVESTOCK SCIENCE, 2017, 197 : 36 - 45
  • [24] A genome-wide search for loci interacting with known prostate cancer risk-associated genetic variants
    Tao, Sha
    Wang, Zhong
    Feng, Junjie
    Hsu, Fang-Chi
    Jin, Guangfu
    Kim, Seong-Tae
    Zhang, Zheng
    Gronberg, Henrik
    Zheng, Lilly S.
    Isaacs, William B.
    Xu, Jianfeng
    Sun, Jielin
    CARCINOGENESIS, 2012, 33 (03) : 598 - 603
  • [25] A Hybrid, de Novo Based, Genome-Wide Database Search Approach Applied to the Sea Urchin Neuropeptidome
    Menschaert, Gerben
    Vandekerckhove, Tom T. M.
    Baggerman, Geert
    Landuyt, Bart
    Sweedler, Jonathan V.
    Schoofs, Liliane
    Luyten, Walter
    Van Criekinge, Wim
    JOURNAL OF PROTEOME RESEARCH, 2010, 9 (02) : 990 - 996
  • [26] Genome-Wide Search for Eliminylating Domains Reveals Novel Function for BLES03-Like Proteins
    Khater, Shradha
    Mohanty, Debasisa
    GENOME BIOLOGY AND EVOLUTION, 2014, 6 (08): : 2017 - 2033
  • [27] Genome-wide maps of transcription regulatory elements
    Sakabe, Noboru J.
    Nobrega, Marcelo A.
    WILEY INTERDISCIPLINARY REVIEWS-SYSTEMS BIOLOGY AND MEDICINE, 2010, 2 (04) : 422 - 437
  • [28] A genome-wide circular RNA transcriptome in rat
    Sharma, Disha
    Sehgal, Paras
    Sivasubbu, Sridhar
    Scaria, Vinod
    BIOLOGY METHODS & PROTOCOLS, 2021, 6 (01)
  • [29] Genome-wide functional analysis in Candida albicans
    Motaung, Thabiso E.
    Ells, Ruan
    Pohl, Carolina H.
    Albertyn, Jacobus
    Tsilo, Toi J.
    VIRULENCE, 2017, 8 (08) : 1563 - 1579
  • [30] Effects of genome-wide copy number variation on expression in mammalian cells
    Wang, Richard T.
    Ahn, Sangtae
    Park, Christopher C.
    Khan, Arshad H.
    Lange, Kenneth
    Smith, Desmond J.
    BMC GENOMICS, 2011, 12
12345