Your search keyword '"Wilson, Nathan M."' showing total 2 results

1. A community effort to create standards for evaluating tumor subclonal reconstruction.

Author

Salcedo A, Tarabichi M, Espiritu SMG, Deshwar AG, David M, Wilson NM, Dentro S, Wintersinger JA, Liu LY, Ko M, Sivanandan S, Zhang H, Zhu K, Ou Yang TH, Chilton JM, Buchanan A, Lalansingh CM, P'ng C, Anghel CV, Umar I, Lo B, Zou W, Simpson JT, Stuart JM, Anastassiou D, Guan Y, Ewing AD, Ellrott K, Wedge DC, Morris Q, Van Loo P, and Boutros PC

Subjects

Clone Cells, Computer Simulation, DNA Copy Number Variations genetics, Gene Dosage, Genome, Humans, Mutation genetics, Neoplasms genetics, Polymorphism, Single Nucleotide genetics, Reference Standards, Algorithms, Neoplasms pathology

Abstract

Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogeneity to infer evolutionary dynamics. A growing number of studies have used these approaches to link cancer evolution with clinical progression and response to therapy. Although the inference of tumor phylogenies is rapidly becoming standard practice in cancer genome analyses, standards for evaluating them are lacking. To address this need, we systematically assess methods for reconstructing tumor subclonality. First, we elucidate the main algorithmic problems in subclonal reconstruction and develop quantitative metrics for evaluating them. Then we simulate realistic tumor genomes that harbor all known clonal and subclonal mutation types and processes. Finally, we benchmark 580 tumor reconstructions, varying tumor read depth, tumor type and somatic variant detection. Our analysis provides a baseline for the establishment of gold-standard methods to analyze tumor heterogeneity.

Published

2020

2. A community effort to create standards for evaluating tumor subclonal reconstruction

Author

Salcedo, Adriana, Tarabichi, Maxime, Espiritu, Shadrielle Melijah G, Deshwar, Amit G, David, Matei, Wilson, Nathan M, Dentro, Stefan, Wintersinger, Jeff A, Liu, Lydia Y, Ko, Minjeong, Sivanandan, Srinivasan, Zhang, Hongjiu, Zhu, Kaiyi, Ou Yang, Tai-Hsien, Chilton, John M, Buchanan, Alex, Lalansingh, Christopher M, P'ng, Christine, Anghel, Catalina V, Umar, Imaad, Lo, Bryan, Zou, William, DREAM SMC-Het Participants, Simpson, Jared T, Stuart, Joshua M, Anastassiou, Dimitris, Guan, Yuanfang, Ewing, Adam D, Ellrott, Kyle, Wedge, David C, Morris, Quaid, Van Loo, Peter, and Boutros, Paul C

Subjects

Genome, DNA Copy Number Variations, DREAM SMC-Het Participants, Human Genome, Gene Dosage, Single Nucleotide, Reference Standards, Clone Cells, Neoplasms, Mutation, Genetics, Humans, Computer Simulation, Polymorphism, Algorithms, Cancer

Abstract

Tumor DNA sequencing data can be interpreted by computational methods that analyze genomic heterogeneity to infer evolutionary dynamics. A growing number of studies have used these approaches to link cancer evolution with clinical progression and response to therapy. Although the inference of tumor phylogenies is rapidly becoming standard practice in cancer genome analyses, standards for evaluating them are lacking. To address this need, we systematically assess methods for reconstructing tumor subclonality. First, we elucidate the main algorithmic problems in subclonal reconstruction and develop quantitative metrics for evaluating them. Then we simulate realistic tumor genomes that harbor all known clonal and subclonal mutation types and processes. Finally, we benchmark 580 tumor reconstructions, varying tumor read depth, tumor type and somatic variant detection. Our analysis provides a baseline for the establishment of gold-standard methods to analyze tumor heterogeneity.

Published

2020