Sheng-Chung Chen scite author profile

Sheng-Chung Chen

2Publications

20Citation Statements Received

6Citation Statements Given

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Genomics Research Center, Academia Sinica

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Palindromic sequence impedes sequencing-by-ligation mechanism

et al. 2012

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BackgroundCurrent next-generation sequencing (NGS) platforms adopt two types of sequencing mechanisms: by synthesis or by ligation. The former is employed by 454 and Solexa systems, while the latter by SOLiD system. Although the pros and cons for each sequencing mechanism have more or less been discussed in a number of occasions, the potential obstacle imposed by palindromic sequences has not yet been addressed.MethodsTo test the effect of the palindromic region on sequencing efficacy, we clonally amplified a paired-end ditag sequence composed of a 24-bp palindromic sequence flanked by a pair of tags from the E. coli genome. We used the near homogeneous fragments produced from MmeI digestion of the amplified clone to generate a sequencing library for SOLiD 5500xl sequencer.ResultsResults showed that, traditional ABI sequencers, which adopt sequencing-by-synthesis mechanism, were able to read through the palindromic region. However, SOLiD 5500xl was unable to do so. Instead, the palindromic region was read as miscellaneous random sequences. Moreover, readable tag sequence turned obscure ~2 bp prior to the palindromic region.ConclusionsTaken together, we demonstrate that SOLiD machines, which employ sequencing-by-ligation mechanism, are unable to read through the palindromic region. On the other hand, sequencing-by-synthesis sequencers had no difficulty in doing so.

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Lithography mask made by silver nanorods

Chen¹,

Wei

Pan³

et al. 2010

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Sheng-Chung Chen

Palindromic sequence impedes sequencing-by-ligation mechanism

Lithography mask made by silver nanorods

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