Ub-ISAP: a streamlined UNIX pipeline for mining unique viral vector integration sites from next generation sequencing data

被引:0
|
作者
Atul Kamboj
Claus V. Hallwirth
Ian E. Alexander
Geoffrey B. McCowage
Belinda Kramer
机构
[1] Kids’ Research Institute,Children’s Cancer Research Unit
[2] The Children’s Hospital at Westmead,Gene Therapy Research Unit
[3] Children’s Medical Research Institute and The Children’s Hospital at Westmead,The University of Sydney
[4] Discipline of Paediatrics and Child Health,Cancer Centre for Children
[5] The Children’s Hospital,undefined
来源
BMC Bioinformatics | / 18卷
关键词
Gene therapy; Integration site analysis; Next-generation sequencing; Viral vectors;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 43 条
  • [21] An ultra-fast and scalable quantification pipeline for transposable elements from next generation sequencing data
    Jeong, Hyun-Hwan
    Yalamanchili, Hari Krishna
    Guo, Caiwei
    Shulman, Joshua M.
    Liu, Zhandong
    PACIFIC SYMPOSIUM ON BIOCOMPUTING 2018 (PSB), 2018, : 168 - 179
  • [22] ECCsplorer: a pipeline to detect extrachromosomal circular DNA (eccDNA) from next-generation sequencing data
    Ludwig Mann
    Kathrin M. Seibt
    Beatrice Weber
    Tony Heitkam
    BMC Bioinformatics, 23
  • [23] VirusFinder: Software for Efficient and Accurate Detection of Viruses and Their Integration Sites in Host Genomes through Next Generation Sequencing Data
    Wang, Qingguo
    Jia, Peilin
    Zhao, Zhongming
    PLOS ONE, 2013, 8 (05):
  • [24] Reconstruction of viral population structure from next-generation sequencing data using multicommodity flows
    Skums, Pavel
    Mancuso, Nicholas
    Artyomenko, Alexander
    Tork, Bassam
    Mandoiu, Ion
    Khudyakov, Yury
    Zelikovsky, Alex
    BMC BIOINFORMATICS, 2013, 14
  • [25] Reconstruction of viral population structure from next-generation sequencing data using multicommodity flows
    Pavel Skums
    Nicholas Mancuso
    Alexander Artyomenko
    Bassam Tork
    Ion Mandoiu
    Yury Khudyakov
    Alex Zelikovsky
    BMC Bioinformatics, 14
  • [26] Predicting Cytomegalovirus Viral Load from Next-Generation Sequencing Data: A Machine Learning Approach
    Mallory, M.
    Hymas, W.
    Simmon, K.
    Henrie, K.
    Lloyd, J.
    Rawal, M.
    Hanson, K.
    Hillyard, D.
    Bradley, B.
    JOURNAL OF MOLECULAR DIAGNOSTICS, 2024, 26 (11): : S84 - S85
  • [27] Detection of viral pathogens in high grade gliomas from unmapped next-generation sequencing data
    Cimino, Patrick J.
    Zhao, Guoyan
    Wang, David
    Sehn, Jennifer K.
    Lewis, James S., Jr.
    Duncavage, Eric J.
    EXPERIMENTAL AND MOLECULAR PATHOLOGY, 2014, 96 (03) : 310 - 315
  • [28] Estimation of genetic diversity in viral populations from next generation sequencing data with extremely deep coverage
    Jean P. Zukurov
    Sieberth do Nascimento-Brito
    Angela C. Volpini
    Guilherme C. Oliveira
    Luiz Mario R. Janini
    Fernando Antoneli
    Algorithms for Molecular Biology, 11
  • [29] Estimation of genetic diversity in viral populations from next generation sequencing data with extremely deep coverage
    Zukurov, Jean P.
    do Nascimento-Brito, Sieberth
    Volpini, Angela C.
    Oliveira, Guilherme C.
    Janini, Luiz Mario R.
    Antoneli, Fernando
    ALGORITHMS FOR MOLECULAR BIOLOGY, 2016, 11
  • [30] QUASI: A Pipeline for the Quality Assessment and Statistical Inference on Next Generation Sequencing Data from Pooled shRNA Library Screens
    Onyango, Mark
    Ade, Carsten
    Cemic, Franz
    Hemberger, Juergen
    BIOINFORMATICS 2013: PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON BIOINFORMATICS MODELS, METHODS AND ALGORITHMS, 2013, : 288 - 291
12345