2018
DOI: 10.1099/ijsem.0.002809
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Using average nucleotide identity to improve taxonomic assignments in prokaryotic genomes at the NCBI

Abstract: Average nucleotide identity analysis is a useful tool to verify taxonomic identities in prokaryotic genomes, for both complete and draft assemblies. Using optimum threshold ranges appropriate for different prokaryotic taxa, we have reviewed all prokaryotic genome assemblies in GenBank with regard to their taxonomic identity. We present the methods used to make such comparisons, the current status of GenBank verifications, and recent developments in confirming species assignments in new genome submissions.

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Cited by 374 publications
(312 citation statements)
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“…We used the ANI metric to inspect all Enterobacter genome assemblies available in Genbank (n = 1616, January 2019) for potentially misclassified genomes (see methods for details). This is an important step that is in line with the recent announcement that NCBI will use a similar strategy in a large scale [19]. This analysis allowed us to reclassify five E. cloacae and four Enterobacter spp.…”
Section: Resultssupporting
confidence: 59%
“…We used the ANI metric to inspect all Enterobacter genome assemblies available in Genbank (n = 1616, January 2019) for potentially misclassified genomes (see methods for details). This is an important step that is in line with the recent announcement that NCBI will use a similar strategy in a large scale [19]. This analysis allowed us to reclassify five E. cloacae and four Enterobacter spp.…”
Section: Resultssupporting
confidence: 59%
“…In recent times the cumbersome DDR test has been replaced by various alignment-free procedures that have evolved from Chargaff's 'GC% rule' into the current ANI version with cutoff points much higher than 70% [1]. Simply stated, of 16 (= 4 2 ) possible 2-mers, a high GC% species will have a high frequency of G-rich and C-rich 2-mers (GG, GC, CC, CG).…”
Section: Ad Hoc Dna-based Classification Methodsmentioning
confidence: 99%
“…In this study, we analyzed a complete SM43 genome sequence using an average nucleotide identity (ANI) calculator (50, 51). ANI values are used for molecular species definitions (52), and two bacterial strains with an ANI of ≥95% in their shared genes are considered to be the same species and with an ANI of >70% are considered to be the same genus (53, 54). We compared the SM43 genome with those of S. oralis ATCC 35037 and S. mitis ATCC 49456.…”
Section: Resultsmentioning
confidence: 99%