Unexpected effects of different genetic backgrounds on identification of genomic rearrangements via whole-genome next generation sequencing.

Zhangguo Chen,Katherine Gowan,Sonia M. Leach,Sawanee S. Viboolsittiseri,Ameet K. Mishra,Tanya Kadoishi,Katrina Diener,Bifeng Gao,Kenneth L. Jones,Jing Wang

Unexpected effects of different genetic backgrounds on identification of genomic rearrangements via whole-genome next generation sequencing.

2016

Zhangguo Chen
Katherine Gowan
Sonia M. Leach
Sawanee S. Viboolsittiseri
Ameet K. Mishra
Tanya Kadoishi
Katrina Diener
Bifeng Gao
Kenneth L. Jones
Jing Wang

Background Whole genome next generation sequencing (NGS) is increasingly employed to detect genomic rearrangements in cancer genomes, especially in lymphoid malignancies. We recently established a unique mouse model by specifically deleting a key non-homologous end-joining DNA repair gene, Xrcc4, and a cell cycle checkpoint gene, Trp53, in germinal center B cells. This mouse model spontaneously develops mature B cell lymphomas (termed G1XP lymphomas).

Keywords:

DNA sequencing
Genetics
Sequence assembly
Comparative genomics
Genomics
Genome instability
Genome
Gene
Personal genomics
Bioinformatics
Biology
gene rearrangement

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