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Operational taxonomic unit

From Wikipedia, the free encyclopedia

An operational taxonomic unit (OTU) is an operational definition used to classify groups of closely related individuals. The term was originally introduced in 1963 by Robert R. Sokal and Peter H. A. Sneath in the context of numerical taxonomy, where an "operational taxonomic unit" is simply the group of organisms currently being studied.[1] Numerical taxonomy is a method in biological systematics that involves using numerical techniques to classify taxonomic units based on the states of their characteristics.[2] In this sense, an OTU is a pragmatic definition to group individuals by similarity, equivalent to but not necessarily in line with classical Linnaean taxonomy or modern evolutionary taxonomy.

OTUs are employed in microbial community DNA sequencing research to delineate species-level distinctions among organisms and represent the most frequently utilized unit for measuring microbial diversity.[3] Nowadays, however, the term "OTU" is commonly used in a different context and refers to clusters of (uncultivated or unknown) organisms, grouped by DNA sequence similarity of a specific taxonomic marker gene (originally coined as mOTU; molecular OTU).[4] In other words, OTUs are pragmatic proxies for "species" (microbial or metazoan) at different taxonomic levels, in the absence of traditional systems of biological classification as are available for macroscopic organisms. For several years, OTUs have been the most commonly used units of diversity, especially when analysing small subunit 16S (for prokaryotes) or 18S rRNA (for eukaryotes[5]) marker gene sequence datasets.

Sequences can be clustered according to their similarity to one another, and operational taxonomic units are defined based on the similarity threshold (usually 97% similarity; however also 100% similarity is common, also known as single variants[6]) set by the researcher. It remains debatable how well this commonly-used method recapitulates true microbial species phylogeny or ecology. Although OTUs can be calculated differently when using different algorithms or thresholds, research by Schmidt et al. (2014) demonstrated that microbial OTUs were generally ecologically consistent across habitats and several OTU clustering approaches.[7] The number of OTUs defined may be inflated due to errors in DNA sequencing.[8]

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Transcription

OTU clustering approaches

There are three main approaches to clustering OTUs:[9]

  • De novo, for which the clustering is based on similarities between sequencing reads.
  • Closed-reference, for which the clustering is performed against a reference database of sequences.
  • Open-reference, where clustering is first performed against a reference database of sequences, then any remaining sequences that could not be mapped to the reference are clustered de novo.

OTU clustering algorithms

See also

References

  1. ^ Sokal & Sneath: Principles of Numerical Taxonomy, San Francisco: W.H. Freeman, 1957
  2. ^ "Contributors", Wikipedia and Academic Libraries, Michigan Publishing, 15 September 2021, retrieved 17 January 2024
  3. ^ Escalas, Arthur; Hale, Lauren; Voordeckers, James W.; Yang, Yunfeng; Firestone, Mary K.; Alvarez‐Cohen, Lisa; Zhou, Jizhong (October 2019). "Microbial functional diversity: From concepts to applications". Ecology and Evolution. 9 (20): 12000–12016. doi:10.1002/ece3.5670. ISSN 2045-7758. PMC 6822047. PMID 31695904.
  4. ^ Blaxter, M.; Mann, J.; Chapman, T.; Thomas, F.; Whitton, C.; Floyd, R.; Abebe, E. (October 2005). "Defining operational taxonomic units using DNA barcode data". Philos Trans R Soc Lond B Biol Sci. 360 (1462): 1935–43. doi:10.1098/rstb.2005.1725. PMC 1609233. PMID 16214751.
  5. ^ Sommer, Stephanie A.; Woudenberg, Lauren Van; Lenz, Petra H.; Cepeda, Georgina; Goetze, Erica (2017). "Vertical gradients in species richness and community composition across the twilight zone in the North Pacific Subtropical Gyre". Molecular Ecology. 26 (21): 6136–6156. doi:10.1111/mec.14286. hdl:11336/53966. ISSN 1365-294X. PMID 28792641.
  6. ^ Porter, Teresita M.; Hajibabaei, Mehrdad (2018). "Scaling up: A guide to high-throughput genomic approaches for biodiversity analysis". Molecular Ecology. 27 (2): 313–338. doi:10.1111/mec.14478. ISSN 1365-294X. PMID 29292539.
  7. ^ Schmidt, Thomas S. B.; Rodrigues, João F. Matias; von Mering, Christian (24 April 2014). "Ecological Consistency of SSU rRNA-Based Operational Taxonomic Units at a Global Scale". PLOS Comput Biol. 10 (4): e1003594. Bibcode:2014PLSCB..10E3594S. doi:10.1371/journal.pcbi.1003594. ISSN 1553-7358. PMC 3998914. PMID 24763141.
  8. ^ Kunin, V.; Engelbrektson, A.; Ochman, H.; Hugenholtz, P. (January 2010). "Wrinkles in the rare biosphere: pyrosequencing errors can lead to artificial inflation of diversity estimates". Environ Microbiol. 12 (1): 118–23. doi:10.1111/j.1462-2920.2009.02051.x. PMID 19725865.
  9. ^ Kopylova E, Navas-Molina JA, Mercier C, Xu ZZ, Mahé F, He Y, et al. (23 February 2016). Segata N (ed.). "Open-Source Sequence Clustering Methods Improve the State Of the Art". mSystems. 1 (1): e00003–15. doi:10.1128/mSystems.00003-15. PMC 5069751. PMID 27822515.
  10. ^ Edgar, Robert C. (1 October 2010). "Search and clustering orders of magnitude faster than BLAST". Bioinformatics. 26 (19): 2460–2461. doi:10.1093/bioinformatics/btq461. ISSN 1367-4803. PMID 20709691.
  11. ^ Fu, Limin; Niu, Beifang; Zhu, Zhengwei; Wu, Sitao; Li, Weizhong (1 December 2012). "CD-HIT: accelerated for clustering the next-generation sequencing data". Bioinformatics. 28 (23): 3150–3152. doi:10.1093/bioinformatics/bts565. ISSN 1367-4803. PMC 3516142. PMID 23060610.
  12. ^ Fu, Limin; Niu, Beifang; Zhu, Zhengwei; Wu, Sitao; Li, Weizhong (1 December 2012). "CD-HIT: accelerated for clustering the next-generation sequencing data". Bioinformatics. 28 (23): 3150–3152. doi:10.1093/bioinformatics/bts565. ISSN 1367-4803. PMC 3516142. PMID 23060610.
  13. ^ Hao, X.; Jiang, R.; Chen, T. (2011). "Clustering 16S rRNA for OTU prediction: a method of unsupervised Bayesian clustering". Bioinformatics. 27 (5): 611–618. doi:10.1093/bioinformatics/btq725. PMC 3042185. PMID 21233169.

Further reading

This page was last edited on 23 March 2024, at 16:01
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