Minimap and miniasm: fast mapping and de novo assembly for noisy long sequences
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Abstract
MOTIVATION: Single Molecule Real-Time (SMRT) sequencing technology and Oxford Nanopore technologies (ONT) produce reads over 10 kb in length, which have enabled high-quality genome assembly at an affordable cost. However, at present, long reads have an error rate as high as 10-15%. Complex and computationally intensive pipelines are required to assemble such reads. RESULTS: We present a new mapper, minimap and a de novo assembler, miniasm, for efficiently mapping and assembling SMRT and ONT reads without an error correction stage. They can often assemble a sequencing run of bacterial data into a single contig in a few minutes, and assemble 45-fold Caenorhabditis elegans data in 9 min, orders of magnitude…
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Topics
Keywords
- Contig
- Computer science
- Nanopore sequencing
- Sequence assembly
- Interoperability
- Software
- Automation
- Computational biology
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