De novo assembly of human genomes with massively parallel short read sequencing

Ruiqiang Li; Hongmei Zhu; Jue Ruan; Wubin Qian; Xiaodong Fang; Zhongbin Shi; Yingrui Li; Shengting Li; Shan Gao; Karsten Kristiansen; Songgang Li; Huanming Yang; Jian Wang; Jun Wang

doi:10.1101/gr.097261.109

De novo assembly of human genomes with massively parallel short read sequencing

Ruiqiang Li(BGI Group (China)), Hongmei Zhu(BGI Group (China)), Jue Ruan(BGI Group (China)), Wubin Qian(BGI Group (China)), Xiaodong Fang(BGI Group (China)), Zhongbin Shi(BGI Group (China)), Yingrui Li(BGI Group (China)), Shengting Li(BGI Group (China)), Shan Gao(BGI Group (China)), Karsten Kristiansen(BGI Group (China)), Songgang Li(BGI Group (China)), Huanming Yang(BGI Group (China)), Jian Wang(BGI Group (China)), Jun Wang(BGI Group (China))

Genome Research

December 17, 2009

10.1101/gr.097261.109

Cited by 2,997Open Access

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Abstract

Next-generation massively parallel DNA sequencing technologies provide ultrahigh throughput at a substantially lower unit data cost; however, the data are very short read length sequences, making de novo assembly extremely challenging. Here, we describe a novel method for de novo assembly of large genomes from short read sequences. We successfully assembled both the Asian and African human genome sequences, achieving an N50 contig size of 7.4 and 5.9 kilobases (kb) and scaffold of 446.3 and 61.9 kb, respectively. The development of this de novo short read assembly method creates new opportunities for building reference sequences and carrying out accurate analyses of unexplored genomes in a cost-effective way.

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