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PhyloWGS: reconstructing subclonal composition and evolution from whole-genome sequencing of tumors.

Deshwar AG, Vembu S, Yung CK, Jang GH, Stein L, Morris Q - Genome Biol. (2015)

Bottom Line: Tumors often contain multiple subpopulations of cancerous cells defined by distinct somatic mutations.We describe a new method, PhyloWGS, which can be applied to whole-genome sequencing data from one or more tumor samples to reconstruct complete genotypes of these subpopulations based on variant allele frequencies (VAFs) of point mutations and population frequencies of structural variations.We introduce a principled phylogenic correction for VAFs in loci affected by copy number alterations and we show that this correction greatly improves subclonal reconstruction compared to existing methods.

View Article: PubMed Central - PubMed

ABSTRACT
Tumors often contain multiple subpopulations of cancerous cells defined by distinct somatic mutations. We describe a new method, PhyloWGS, which can be applied to whole-genome sequencing data from one or more tumor samples to reconstruct complete genotypes of these subpopulations based on variant allele frequencies (VAFs) of point mutations and population frequencies of structural variations. We introduce a principled phylogenic correction for VAFs in loci affected by copy number alterations and we show that this correction greatly improves subclonal reconstruction compared to existing methods. PhyloWGS is free, open-source software, available at https://github.com/morrislab/phylowgs.

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Related in: MedlinePlus

Changes to VAF caused by CNVs with different phylogenetic relationships. CNV, copy number variation; SSM, simple somatic mutation; VAF, variant allelic frequency.
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Fig3: Changes to VAF caused by CNVs with different phylogenetic relationships. CNV, copy number variation; SSM, simple somatic mutation; VAF, variant allelic frequency.

Mentions: We illustrate some of the ways in which the relationship between a CNV and an affected SSM in the phylogenetic tree affects the observed VAF of that SSM in Figure 3.Figure 3


PhyloWGS: reconstructing subclonal composition and evolution from whole-genome sequencing of tumors.

Deshwar AG, Vembu S, Yung CK, Jang GH, Stein L, Morris Q - Genome Biol. (2015)

Changes to VAF caused by CNVs with different phylogenetic relationships. CNV, copy number variation; SSM, simple somatic mutation; VAF, variant allelic frequency.
© Copyright Policy - open-access
Related In: Results  -  Collection

License 1 - License 2
Show All Figures
getmorefigures.php?uid=PMC4359439&req=5

Fig3: Changes to VAF caused by CNVs with different phylogenetic relationships. CNV, copy number variation; SSM, simple somatic mutation; VAF, variant allelic frequency.
Mentions: We illustrate some of the ways in which the relationship between a CNV and an affected SSM in the phylogenetic tree affects the observed VAF of that SSM in Figure 3.Figure 3

Bottom Line: Tumors often contain multiple subpopulations of cancerous cells defined by distinct somatic mutations.We describe a new method, PhyloWGS, which can be applied to whole-genome sequencing data from one or more tumor samples to reconstruct complete genotypes of these subpopulations based on variant allele frequencies (VAFs) of point mutations and population frequencies of structural variations.We introduce a principled phylogenic correction for VAFs in loci affected by copy number alterations and we show that this correction greatly improves subclonal reconstruction compared to existing methods.

View Article: PubMed Central - PubMed

ABSTRACT
Tumors often contain multiple subpopulations of cancerous cells defined by distinct somatic mutations. We describe a new method, PhyloWGS, which can be applied to whole-genome sequencing data from one or more tumor samples to reconstruct complete genotypes of these subpopulations based on variant allele frequencies (VAFs) of point mutations and population frequencies of structural variations. We introduce a principled phylogenic correction for VAFs in loci affected by copy number alterations and we show that this correction greatly improves subclonal reconstruction compared to existing methods. PhyloWGS is free, open-source software, available at https://github.com/morrislab/phylowgs.

Show MeSH
Related in: MedlinePlus