Examining Tumor Phylogeny Inference in Noisy Sequencing Data

Abstract

A number of methods have recently been proposed to reconstruct the evolutionary history of a tumor from noisy DNA sequencing data. We investigate when and how well these histories can be reconstructed from multi-sample bulk sequencing data when considering only single nucleotide variants (SNVs). We formalize this as the Enumeration Variant Allele Frequency Factorization Problem and provide a novel proof for an upper bound on the number of possible phylogenies consistent with a given dataset. In addition, we propose and assess two methods for increasing the robustness and performance of an existing graph based phylogenetic inference method. We apply our approaches to noisy simulated data and find that low coverage and high noise make it more difficult to identify phylogenies. We also apply our methods to both chronic lymphocytic leukemia and clear cell renal cell carcinoma datasets.

Publication
IEEE International Conference on Bioinformatics and Biomedicine (BIBM)
Kiran Tomlinson
Kiran Tomlinson
Senior Researcher

I’m a recent PhD graduate from Cornell University, starting this fall as a Senior Researcher at Microsoft Research.