MetaBAT 2: an adaptive binning algorithm for robust and efficient genome reconstruction from metagenome assemblies 论文

2019PeerJ引用 3829顶会
Genomics and Phylogenetic StudiesAlgorithms and Data CompressionChromosomal and Genetic Variations

详细信息

发表期刊/会议
PeerJ
发表日期
2019-07-26
发表年份
2019

关键词

Genomics and Phylogenetic StudiesAlgorithms and Data CompressionChromosomal and Genetic Variations

摘要

We previously reported on MetaBAT, an automated metagenome binning software tool to reconstruct single genomes from microbial communities for subsequent analyses of uncultivated microbial species. MetaBAT has become one of the most popular binning tools largely due to its computational efficiency and ease of use, especially in binning experiments with a large number of samples and a large assembly. MetaBAT requires users to choose parameters to fine-tune its sensitivity and specificity. If those parameters are not chosen properly, binning accuracy can suffer, especially on assemblies of poor quality. Here, we developed MetaBAT 2 to overcome this problem. MetaBAT 2 uses a new adaptive binning algorithm to eliminate manual parameter tuning. We also performed extensive software engineering optimization to increase both computational and memory efficiency. Comparing MetaBAT 2 to alternative software tools on over 100 real world metagenome assemblies shows superior accuracy and computing speed. Binning a typical metagenome assembly takes only a few minutes on a single commodity workstation. We therefore recommend the community adopts MetaBAT 2 for their metagenome binning experiments. MetaBAT 2 is open source software and available at https://bitbucket.org/berkeleylab/metabat .

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