Optimal Assembly for High Throughput Shotgun Sequencing
Abstract
We present a framework for the design of optimal assembly algorithms for shotgun sequencing under the criterion of complete reconstruction. We derive a lower bound on the read length and the coverage depth required for reconstruction in terms of the repeat statistics of the genome. Building on earlier works, we design a de Brujin graph based assembly algorithm which can achieve very close to the lower bound for repeat statistics of a wide range of sequenced genomes, including the GAGE datasets. The results are based on a set of necessary and sufficient conditions on the DNA sequence and the reads for reconstruction. The conditions can be viewed as the shotgun sequencing analogue of Ukkonen-Pevzner's necessary and sufficient conditions for Sequencing by Hybridization.
Keywords
Cite
@article{arxiv.1301.0068,
title = {Optimal Assembly for High Throughput Shotgun Sequencing},
author = {Guy Bresler and Ma'ayan Bresler and David Tse},
journal= {arXiv preprint arXiv:1301.0068},
year = {2013}
}
Comments
26 pages, 18 figures