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Journal Article

gbtools: Interactive Visualization of Metagenome Bins in R.

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Seah,  Brandon K. B.
Department of Symbiosis, Max Planck Institute for Marine Microbiology, Max Planck Society;

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Gruber-Vodicka,  Harald R.
Department of Symbiosis, Max Planck Institute for Marine Microbiology, Max Planck Society;

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Seah, B. K. B., & Gruber-Vodicka, H. R. (2015). gbtools: Interactive Visualization of Metagenome Bins in R. Frontiers in Microbiology, online: eCollection 2015, pp. 1-10.


Cite as: https://hdl.handle.net/21.11116/0000-0001-C38F-2
Abstract
Improvements in DNA sequencing technology have increased the amount and quality of sequences that can be obtained from metagenomic samples, making it practical to extract individual microbial genomes from metagenomic assemblies ("binning"). However, while many tools and methods exist for unsupervised binning with various statistical algorithms, there are few options for visualizing the results, even though visualization is vital to exploratory data analysis. We have developed gbtools, a software package that allows users to visualize metagenomic assemblies by plotting coverage (sequencing depth) and GC values of contigs, and also to annotate the plots with taxonomic information. Different sets of annotations, including taxonomic assignments from conserved marker genes or SSU rRNA genes, can be imported simultaneously; users can choose which annotations to plot. Bins can be manually defined from plots, or be imported from third-party binning tools and overlaid onto plots, such that results from different methods can be compared side-by-side. gbtools reports summary statistics of bins including marker gene completeness, and allows the user to add or subtract bins with each other. We illustrate some of the functions available in gbtools with two examples: the metagenome of Olavius algarvensis, a marine oligochaete worm that has up to five bacterial symbionts, and the metagenome of a synthetic mock community comprising 64 bacterial and archaeal strains. We show how instances of poor automated binning, sequencer GC% bias, and variation between samples can be quickly diagnosed by visualization, and demonstrate how the results from different binning tools can be combined and refined to yield manually curated bins with higher completeness. gbtools is open-source and written in R. The software package, documentation, and example data are available freely online at https://github.com/kbseah/genome-bin-tools.