Skmer: assembly-free and alignment-free sample identification using genome skims

被引:0
|
作者
Shahab Sarmashghi
Kristine Bohmann
M. Thomas P. Gilbert
Vineet Bafna
Siavash Mirarab
机构
[1] University of California,Department of Electrical & Computer Engineering
[2] University of Copenhagen,Evolutionary Genomics, Natural History Museum of Denmark
[3] University of East Anglia,School of Biological Sciences
[4] Norwegian University of Science and Technology,Department of Computer Science & Engineering
[5] University of California,undefined
来源
Genome Biology | / 20卷
关键词
Assembly-free; Alignment-free; DNA Barcoding; Genome skimming; DNA reference database; Second generation sequencing;
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摘要
The ability to inexpensively describe taxonomic diversity is critical in this era of rapid climate and biodiversity changes. The recent genome-skimming approach extends current barcoding practices beyond short markers by applying low-pass sequencing and recovering whole organelle genomes computationally. This approach discards the nuclear DNA, which constitutes the vast majority of the data. In contrast, we suggest using all unassembled reads. We introduce an assembly-free and alignment-free tool, Skmer, to compute genomic distances between the query and reference genome skims. Skmer shows excellent accuracy in estimating distances and identifying the closest match in reference datasets.
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