Dahl Fredrik, Stenberg Johan, Fredriksson Simon, Welch Katrina, Zhang Michael, Nilsson Mats, Bicknell David, Bodmer Walter F, Davis Ronald W, Ji Hanlee
Stanford Genome Technology Center, Stanford University, Palo Alto, CA 94304, USA.
Proc Natl Acad Sci U S A. 2007 May 29;104(22):9387-92. doi: 10.1073/pnas.0702165104. Epub 2007 May 17.
We have developed a procedure for massively parallel resequencing of multiple human genes by combining a highly multiplexed and target-specific amplification process with a high-throughput parallel sequencing technology. The amplification process is based on oligonucleotide constructs, called selectors, that guide the circularization of specific DNA target regions. Subsequently, the circularized target sequences are amplified in multiplex and analyzed by using a highly parallel sequencing-by-synthesis technology. As a proof-of-concept study, we demonstrate parallel resequencing of 10 cancer genes covering 177 exons with average sequence coverage per sample of 93%. Seven cancer cell lines and one normal genomic DNA sample were studied with multiple mutations and polymorphisms identified among the 10 genes. Mutations and polymorphisms in the TP53 gene were confirmed by traditional sequencing.
我们通过将高度多重且靶向特异性的扩增过程与高通量平行测序技术相结合,开发出了一种用于对多个人类基因进行大规模平行重测序的方法。该扩增过程基于称为选择子的寡核苷酸构建体,其引导特定DNA靶区域的环化。随后,环化的靶序列被多重扩增,并使用高度平行的合成测序技术进行分析。作为概念验证研究,我们展示了对覆盖177个外显子的10个癌症基因进行平行重测序,每个样本的平均序列覆盖率为93%。研究了7个癌细胞系和1个正常基因组DNA样本,在这10个基因中鉴定出多个突变和多态性。TP53基因中的突变和多态性通过传统测序得以证实。