Primer Extension Capture: Targeted Sequence Retrieval from Heavily Degraded DNA Sources | Zendy

Adrian W. Briggs | Zendy; Jeffrey M. Good | Zendy; Richard E. Green | Zendy; Johannes Krause | Zendy; Tomislav Maričić | Zendy; Udo Stenzel | Zendy; Svante Pääbo | Zendy

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Primer Extension Capture: Targeted Sequence Retrieval from Heavily Degraded DNA Sources

Author(s) -

Adrian W. Briggs,

Jeffrey M. Good,

Richard E. Green,

Johannes Krause,

Tomislav Maričić,

Udo Stenzel,

Svante Pääbo

Publication year - 2009

Publication title -

journal of visualized experiments

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.596

H-Index - 91

ISSN - 1940-087X

DOI - 10.3791/1573

Subject(s) - mitochondrial dna , biology , shotgun sequencing , ancient dna , evolutionary biology , dna sequencing , primer extension , genetics , genome , dna , sequence (biology) , primer (cosmetics) , population , computational biology , gene , base sequence , chemistry , demography , organic chemistry , sociology

We present a method of targeted DNA sequence retrieval from DNA sources which are heavily degraded and contaminated with microbial DNA, as is typical of ancient bones. The method greatly reduces sample destruction and sequencing demands relative to direct PCR or shotgun sequencing approaches. We used this method to reconstruct the complete mitochondrial DNA (mtDNA) genomes of five Neandertals from across their geographic range. The mtDNA genetic diversity of the late Neandertals was approximately three times lower than that of contemporary modern humans. Together with analyses of mtDNA protein evolution, these data suggest that the long-term effective population size of Neandertals was smaller than that of modern humans and extant great apes.

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