Virmid: accurate detection of somatic mutations with sample impurity inference

被引:0
|
作者
Sangwoo Kim
Kyowon Jeong
Kunal Bhutani
Jeong Ho Lee
Anand Patel
Eric Scott
Hojung Nam
Hayan Lee
Joseph G Gleeson
Vineet Bafna
机构
[1] University of California at San Diego,Department of Computer Science and Engineering
[2] University of California at San Diego,Department of Electrical and Computer Engineering
[3] University of California at San Diego,Institute for Genomic Medicine, Rady Children's Hospital
[4] Gwangju Institute of Science and Technology,School of Information and Communications
[5] Stony Brook University,Department of Computer Science
[6] KAIST,Graduate School of Medical Science and Engineering
来源
Genome Biology | / 14卷
关键词
Somatic Mutation; Read Depth; Breast Cancer Data; Genotype Probability; Mutation Burden;
D O I
暂无
中图分类号
学科分类号
摘要
Detection of somatic variation using sequence from disease-control matched data sets is a critical first step. In many cases including cancer, however, it is hard to isolate pure disease tissue, and the impurity hinders accurate mutation analysis by disrupting overall allele frequencies. Here, we propose a new method, Virmid, that explicitly determines the level of impurity in the sample, and uses it for improved detection of somatic variation. Extensive tests on simulated and real sequencing data from breast cancer and hemimegalencephaly demonstrate the power of our model. A software implementation of our method is available at http://sourceforge.net/projects/virmid/.
引用
收藏
相关论文
共 50 条
  • [1] Virmid: accurate detection of somatic mutations with sample impurity inference
    Kim, Sangwoo
    Jeong, Kyowon
    Bhutani, Kunal
    Lee, Jeong Ho
    Patel, Anand
    Scott, Eric
    Nam, Hojung
    Lee, Hayan
    Gleeson, Joseph G.
    Bafna, Vineet
    GENOME BIOLOGY, 2013, 14 (08):
  • [2] Accurate Detection of Somatic Mutations in the Developing Human Brain by Duplex Consensus Sequencing
    Shao, Diane D.
    Dong, Guanlan
    Choudhury, Sangita
    Lee, Eunjung
    Walsh, Christopher
    ANNALS OF NEUROLOGY, 2022, 92 : S171 - S171
  • [3] Novel rhPCR Assays for Sensitive and Accurate Detection of Germline SNPs and Somatic Mutations
    Chen, C.
    Tsang, D.
    Bao, Y.
    JOURNAL OF MOLECULAR DIAGNOSTICS, 2017, 19 (02): : S55 - S56
  • [4] Joint genotype inference with germline and somatic mutations
    Bareke, Eric
    Saillour, Virginie
    Spinella, Jean-Francois
    Vidal, Ramon
    Healy, Jasmine
    Sinnett, Daniel
    Csuroes, Miklo
    BMC BIOINFORMATICS, 2013, 14
  • [5] Joint genotype inference with germline and somatic mutations
    Eric Bareke
    Virginie Saillour
    Jean-François Spinella
    Ramon Vidal
    Jasmine Healy
    Daniel Sinnett
    Miklós Csűrös
    BMC Bioinformatics, 14
  • [6] A Novel Affordable and Reliable Framework for Accurate Detection and Comprehensive Analysis of Somatic Mutations in Cancer
    Atzeni, Rossano
    Massidda, Matteo
    Pieroni, Enrico
    Rallo, Vincenzo
    Pisu, Massimo
    Angius, Andrea
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2024, 25 (15)
  • [7] DETECTION OF SOMATIC MUTATIONS IN HUMANS
    AKIYAMA, M
    NAKAMURA, N
    KYOIZUMI, S
    KUSHIRO, J
    HIRAI, Y
    MUTATION RESEARCH, 1991, 253 (03): : 241 - 242
  • [8] Characterization of cancer evolution landscape based on accurate detection of somatic mutations in single tumor cells
    Niu, Muchun
    Zhang, Yang
    Luo, Jiayi
    Sinson, Jefferson C.
    Thompson, Alastair M.
    Zong, Chenghang
    CANCER RESEARCH, 2024, 84 (06)
  • [9] SMuRF: portable and accurate ensemble prediction of somatic mutations
    Huan, Weitai
    Guo, Yu Amanda
    Muthukumar, Karthik
    Baruah, Probhonjon
    Chang, Mei Mei
    Skanderup, Anders Jacobsen
    BIOINFORMATICS, 2019, 35 (17) : 3157 - 3159
  • [10] SOMATIC MUTATIONS - NEW METHODS OF DETECTION
    STEPHENSON, DA
    SEARLE, AG
    MUTATION RESEARCH, 1982, 97 (03): : 224 - 224
12345