Schmutzi: Estimation of contamination and endogenous mitochondrial consensus calling for ancient DNA

Gabriel Renaud; Viviane Slon; Ana T. Duggan; Janet Kelso

doi:10.1186/s13059-015-0776-0

Schmutzi: Estimation of contamination and endogenous mitochondrial consensus calling for ancient DNA

Gabriel Renaud, Viviane Slon, Ana T. Duggan, Janet Kelso

Research output: Contribution to journal › Article › peer-review

Abstract

Ancient DNA is typically highly degraded with appreciable cytosine deamination, and contamination with present-day DNA often complicates the identification of endogenous molecules. Together, these factors impede accurate assembly of the endogenous ancient mitochondrial genome. We present schmutzi, an iterative approach to jointly estimate present-day human contamination in ancient human DNA datasets and reconstruct the endogenous mitochondrial genome. By using sequence deamination patterns and fragment length distributions, schmutzi accurately reconstructs the endogenous mitochondrial genome sequence even when contamination exceeds 50 %. Given sufficient coverage, schmutzi also produces reliable estimates of contamination across a range of contamination rates. Availability: https://bioinf.eva.mpg.de/schmutzi/license:GPLv3.

Original language	English
Article number	224
Journal	GENOME BIOLOGY
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s13059-015-0776-0
State	Published - 12 Oct 2015
Externally published	Yes

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics
Genetics
Cell Biology

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10.1186/s13059-015-0776-0

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title = "Schmutzi: Estimation of contamination and endogenous mitochondrial consensus calling for ancient DNA",

abstract = "Ancient DNA is typically highly degraded with appreciable cytosine deamination, and contamination with present-day DNA often complicates the identification of endogenous molecules. Together, these factors impede accurate assembly of the endogenous ancient mitochondrial genome. We present schmutzi, an iterative approach to jointly estimate present-day human contamination in ancient human DNA datasets and reconstruct the endogenous mitochondrial genome. By using sequence deamination patterns and fragment length distributions, schmutzi accurately reconstructs the endogenous mitochondrial genome sequence even when contamination exceeds 50 \%. Given sufficient coverage, schmutzi also produces reliable estimates of contamination across a range of contamination rates. Availability: https://bioinf.eva.mpg.de/schmutzi/license:GPLv3.",

author = "Gabriel Renaud and Viviane Slon and Duggan, \{Ana T.\} and Janet Kelso",

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doi = "10.1186/s13059-015-0776-0",

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AU - Renaud, Gabriel

AU - Slon, Viviane

AU - Duggan, Ana T.

AU - Kelso, Janet

PY - 2015/10/12

Y1 - 2015/10/12

N2 - Ancient DNA is typically highly degraded with appreciable cytosine deamination, and contamination with present-day DNA often complicates the identification of endogenous molecules. Together, these factors impede accurate assembly of the endogenous ancient mitochondrial genome. We present schmutzi, an iterative approach to jointly estimate present-day human contamination in ancient human DNA datasets and reconstruct the endogenous mitochondrial genome. By using sequence deamination patterns and fragment length distributions, schmutzi accurately reconstructs the endogenous mitochondrial genome sequence even when contamination exceeds 50 %. Given sufficient coverage, schmutzi also produces reliable estimates of contamination across a range of contamination rates. Availability: https://bioinf.eva.mpg.de/schmutzi/license:GPLv3.

AB - Ancient DNA is typically highly degraded with appreciable cytosine deamination, and contamination with present-day DNA often complicates the identification of endogenous molecules. Together, these factors impede accurate assembly of the endogenous ancient mitochondrial genome. We present schmutzi, an iterative approach to jointly estimate present-day human contamination in ancient human DNA datasets and reconstruct the endogenous mitochondrial genome. By using sequence deamination patterns and fragment length distributions, schmutzi accurately reconstructs the endogenous mitochondrial genome sequence even when contamination exceeds 50 %. Given sufficient coverage, schmutzi also produces reliable estimates of contamination across a range of contamination rates. Availability: https://bioinf.eva.mpg.de/schmutzi/license:GPLv3.

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DO - 10.1186/s13059-015-0776-0

M3 - مقالة

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SN - 1474-7596

VL - 16

JO - GENOME BIOLOGY

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IS - 1

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ER -

Schmutzi: Estimation of contamination and endogenous mitochondrial consensus calling for ancient DNA

Abstract

All Science Journal Classification (ASJC) codes

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