Precise Breakpoint Localization of Large Genomic Deletions using PacBio and Illumina Next-Generation Sequencers | Zendy

Michał Okoniewski | Zendy; Janine Meienberg | Zendy; Andrea Patrignani | Zendy; Alicja SzabelskaBeręsewicz | Zendy; Gábor Mátyás | Zendy; Ralph Schlapbach | Zendy

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Precise Breakpoint Localization of Large Genomic Deletions using PacBio and Illumina Next-Generation Sequencers

Author(s) -

Michał Okoniewski,

Janine Meienberg,

Andrea Patrignani,

Alicja SzabelskaBeręsewicz,

Gábor Mátyás,

Ralph Schlapbach

Publication year - 2013

Publication title -

biotechniques

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.617

H-Index - 131

eISSN - 1940-9818

pISSN - 0736-6205

DOI - 10.2144/000113992

Subject(s) - breakpoint , sanger sequencing , illumina dye sequencing , biology , computational biology , genetics , dna sequencing , dna sequencer , genomic dna , gene , chromosome

Herein we present the applicability of single-molecule (PacBio RS) and second-generation sequencing technology (Illumina) to the characterization of large genomic deletions. By testing samples previously characterized using a Sanger approach, our methods determined that both next-generation sequencing platforms were able to identify the position of deletion breakpoints. Our results point out various advantages of next-generation sequencing platforms when characterizing genomic deletions; however, special attention must be dedicated to identical sequences flanking the breakpoints, such as poly(N) motifs.

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