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A high-throughput optomechanical retrieval method for sequence-verified clonal DNA from the NGS platform.


ABSTRACT: Writing DNA plays a significant role in the fields of synthetic biology, functional genomics and bioengineering. DNA clones on next-generation sequencing (NGS) platforms have the potential to be a rich and cost-effective source of sequence-verified DNAs as a precursor for DNA writing. However, it is still very challenging to retrieve target clonal DNA from high-density NGS platforms. Here we propose an enabling technology called 'Sniper Cloning' that enables the precise mapping of target clone features on NGS platforms and non-contact rapid retrieval of targets for the full utilization of DNA clones. By merging the three cutting-edge technologies of NGS, DNA microarray and our pulse laser retrieval system, Sniper Cloning is a week-long process that produces 5,188 error-free synthetic DNAs in a single run of NGS with a single microarray DNA pool. We believe that this technology has potential as a universal tool for DNA writing in biological sciences.

SUBMITTER: Lee H 

PROVIDER: S-EPMC4327316 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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A high-throughput optomechanical retrieval method for sequence-verified clonal DNA from the NGS platform.

Lee Howon H   Kim Hyoki H   Kim Sungsik S   Ryu Taehoon T   Kim Hwangbeom H   Bang Duhee D   Kwon Sunghoon S  

Nature communications 20150202


Writing DNA plays a significant role in the fields of synthetic biology, functional genomics and bioengineering. DNA clones on next-generation sequencing (NGS) platforms have the potential to be a rich and cost-effective source of sequence-verified DNAs as a precursor for DNA writing. However, it is still very challenging to retrieve target clonal DNA from high-density NGS platforms. Here we propose an enabling technology called 'Sniper Cloning' that enables the precise mapping of target clone f  ...[more]

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