Projects per year
Abstract
Background: Metatranscriptomics has been used widely for investigation and quantification of microbial communities' activity in response to external stimuli. By assessing the genes expressed, metatranscriptomics provides an understanding of the interactions between different major functional guilds and the environment. Here, we present a de novo assembly-based Comparative Metatranscriptomics Workflow (CoMW) implemented in a modular, reproducible structure. Metatranscriptomics typically uses short sequence reads, which can either be directly aligned to external reference databases ("assembly-free approach") or first assembled into contigs before alignment ("assembly-based approach"). We also compare CoMW (assembly-based implementation) with an assembly-free alternative workflow, using simulated and real-world metatranscriptomes from Arctic and temperate terrestrial environments. We evaluate their accuracy in precision and recall using generic and specialized hierarchical protein databases. Results: CoMW provided significantly fewer false-positive results, resulting in more precise identification and quantification of functional genes in metatranscriptomes. Using the comprehensive database M5nr, the assembly-based approach identified genes with only 0.6% false-positive results at thresholds ranging from inclusive to stringent compared with the assembly-free approach, which yielded up to 15% false-positive results. Using specialized databases (carbohydrate-active enzyme and nitrogen cycle), the assembly-based approach identified and quantified genes with 3-5 times fewer false-positive results. We also evaluated the impact of both approaches on real-world datasets. Conclusions: We present an open source de novo assembly-based CoMW. Our benchmarking findings support assembling short reads into contigs before alignment to a reference database because this provides higher precision and minimizes false-positive results.
Original language | English |
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Volume | 8 |
Pages | 1-10 |
Number of pages | 10 |
DOIs | |
Publication status | Published - Aug 2019 |
Keywords
- Alignment
- Assembly
- Benchmarking
- False-positive results
- Metatranscriptomics
- Precision
- Recall
Fingerprint
Dive into the research topics of 'To assemble or not to resemble: A validated Comparative Metatranscriptomics Workflow (CoMW)'. Together they form a unique fingerprint.Projects
- 1 Finished
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Computational Analysis of Environmental Microbiomes in Action using total RNA
Anwar, M. Z. (Participant) & Jacobsen, C. S. (Participant)
31/10/2016 → 15/09/2019
Project: Research
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Comparative Metatranscriptomics Workflow (CoMW)
Anwar, M. Z. (Developer), Lanzen, A. (Developer), Bang-Andreasen, T. (Other) & Jacobsen, C. S. (Other), May 2019Research output: Non-textual form › Computer programme › Research › peer-review
Open Access -
Deploying a Single Strand of Life to Unravel the Environmental Microbiomes in Action
Anwar, M. Z., Oct 2019, Århus Universitet. 183 p.Research output: Book/anthology/dissertation/report › Ph.D. thesis
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To assemble or not to resemble-A validated Comparative Metatranscriptomics Workflow (CoMW)
Anwar, M. Z., Lanzen, A., Bang-Andreasen, T. & Jacobsen, C. S., 1 Aug 2019, In: GigaScience. 8, 8, p. 1-10 10 p.Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review
Open Access