Normalization of Genomic DNA Using Duplex-Specific Nuclease | Zendy

Irina A. Shagina | Zendy; Ekaterina Bogdanova | Zendy; Ilgar Z. Mamedov | Zendy; Yuri B. Lebedev | Zendy; Sergey Lukyanov | Zendy; Dmitry A. Shagin | Zendy

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Normalization of Genomic DNA Using Duplex-Specific Nuclease

Author(s) -

Irina A. Shagina,

Ekaterina Bogdanova,

Ilgar Z. Mamedov,

Yuri B. Lebedev,

Sergey Lukyanov,

Dmitry A. Shagin

Publication year - 2010

Publication title -

biotechniques

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.617

H-Index - 131

eISSN - 1940-9818

pISSN - 0736-6205

DOI - 10.2144/000113422

Subject(s) - nuclease , duplex (building) , dna , genomic dna , biology , genetics , normalization (sociology) , computational biology , microbiology and biotechnology , sociology , anthropology

An application of duplex-specific nuclease (DSN) normalization technology to whole-genome shotgun sequencing of genomes with a large proportion of repetitive DNA is described. The method uses a thermostable DSN from the Kamchatka crab that specifically hydrolyzes dsDNA. In model experiments on human genomic DNA, we demonstrated that DSN normalization of double-stranded DNA formed during C0t analysis is effective against abundant repetitive sequences with high sequence identity, while retaining highly divergent repeats and coding regions at base-line levels. Thus, DSN normalization applied to C0t analysis can be used to eliminate evolutionarily young repetitive elements from genomic DNA before sequencing, and should prove invaluable in studies of large eukaryotic genomes, such as those of higher plants.

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