Genome-Scale Data Call for a Taxonomic Rearrangement of Geodermatophilaceae

Montero‐Calasanz, Maria del Carmen; Meier‐Kolthoff, Jan P.; Zhang, Dao‐Feng; Yaramis, Adnan; Rohde, Manfred; Woyke, Tanja; Kyrpides, Nikos C.; Schümann, Peter; Li, Wenjun; Göker, Markus

doi:10.3389/fmicb.2017.02501

Cited by 90 publications

(46 citation statements)

References 90 publications

(128 reference statements)

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“…It is also difficult to unravel the internal structure of complex actinobacterial genera using data acquired from polyphasic taxonomic studies, notable examples include Actinomyces (Schaal and Yassin, 2012a ), Amycolatopsis (Tan and Goodfellow, 2012 ), Arthrobacter (Busse et al, 2012 ), Micromonospora (Carro et al, 2018 ), Nocardioides (Evtushenko et al, 2012 ), Rhodococcus (Jones and Goodfellow, 2012 ), and Streptomyces (Labeda et al, 2012 ). Polyphasic studies as currently conducted largely depend on the 16S rRNA gene (Montero-Calasanz et al, 2017 ) but despite its usefulness for resolving taxonomic questions in the past, the gene contains only a limited number of characters and thus, much like any other single gene, can yield trees with many statistically unsupported branches (Klenk and Göker, 2010 ; Breider et al, 2014 ).…”

Section: Introductionmentioning

confidence: 99%

“…In contrast, trees based on a few thousand nucleotides (Tang et al, 2016 ) tend to have branches with low bootstrap values; the same limitation applies, albeit to a lesser extent, to multi-locus sequence analyses of conserved housekeeping genes (Glaeser and Kämpfer, 2015 ), which can hardly be called genome-scale (Klenk and Göker, 2010 ). Phylogenomic methods have already been applied to elucidate the classification of complex actinobacterial taxa, such as the genera Amycolatopsis, Micromonospora, Rhodococcus , and Salinispora (Sangal et al, 2016 ; Tang et al, 2016 ; Jensen, 2017 ; Carro et al, 2018 ), and in some cases has led to marked reclassification (Montero-Calasanz et al, 2017 ). However, a comprehensive analysis of the phylum Actinobacteria based on truly genome-scale methods has not been undertaken.…”

Section: Introductionmentioning

confidence: 99%

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Genome-Based Taxonomic Classification of the Phylum Actinobacteria

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The application of phylogenetic taxonomic procedures led to improvements in the classification of bacteria assigned to the phylum Actinobacteria but even so there remains a need to further clarify relationships within a taxon that encompasses organisms of agricultural, biotechnological, clinical, and ecological importance. Classification of the morphologically diverse bacteria belonging to this large phylum based on a limited number of features has proved to be difficult, not least when taxonomic decisions rested heavily on interpretation of poorly resolved 16S rRNA gene trees. Here, draft genome sequences of a large collection of actinobacterial type strains were used to infer phylogenetic trees from genome-scale data using principles drawn from phylogenetic systematics. The majority of taxa were found to be monophyletic but several orders, families, and genera, as well as many species and a few subspecies were shown to be in need of revision leading to proposals for the recognition of 2 orders, 10 families, and 17 genera, as well as the transfer of over 100 species to other genera. In addition, emended descriptions are given for many species mainly involving the addition of data on genome size and DNA G+C content, the former can be considered to be a valuable taxonomic marker in actinobacterial systematics. Many of the incongruities detected when the results of the present study were compared with existing classifications had been recognized from 16S rRNA gene trees though whole-genome phylogenies proved to be much better resolved. The few significant incongruities found between 16S/23S rRNA and whole genome trees underline the pitfalls inherent in phylogenies based upon single gene sequences. Similarly good congruence was found between the discontinuous distribution of phenotypic properties and taxa delineated in the phylogenetic trees though diverse non-monophyletic taxa appeared to be based on the use of plesiomorphic character states as diagnostic features.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Genome-Based Taxonomic Classification of the Phylum Actinobacteria

et al. 2018

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“…Presently, the integration of genomic information into microbial systematics, in addition to physiological and chemotaxonomic parameters as taxonomic criteria, is strongly recommended in the post-genomic era ( Chun and Rainey, 2014 ). Numerous genome-based approaches have been developed and applied for species delineation, for example pan-genome analysis ( Medini et al, 2005 ; Beukes et al, 2017 ), average nucleotide identity (ANI) analysis ( Konstantinidis and Tiedje, 2005 ; Riesco et al, 2018 ), and digital DNA–DNA hybridization (dDDH) analysis ( Meier-Kolthoff et al, 2013 ; Montero-Calasanz et al, 2017 ). The concept of the pan-genome was first introduced in 2005, and includes the core genome composed of genes shared by all strains, a dispensable genome made of genes present in a subset of the strains, and finally strain-specific genes ( Medini et al, 2005 ; Vernikos et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

Genome-Based Analysis Reveals the Taxonomy and Diversity of the Family Idiomarinaceae

2018

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Idiomarinaceae is a family of Gram-stain negative, mesophilic euryhalophiles. To provide a robust framework for the evolutionary and taxonomic relationships of bacteria of this family, we compared herein the genomes of 36 type strains and 43 non-type strains using 16S rRNA gene sequences, core genome based 78 single-copy orthologous proteins, digital DNA-DNA hybridization and average nucleotide identity (ANI) estimation. The 79 bacteria of this family were consistently divided into taxon I, taxon II, and taxon III corresponding to the three genera Idiomarina, Pseudidiomarina, and Aliidiomarina, which contained 13 putative new genospecies in addition to 35 well-defined species represented by each type strain. Furthermore, genetic diversity of this family was evident at the genus- and species levels, and exceeded that which is defined currently by the named species. In view of multiple genotypic characteristics clearly distinct from the other two genera, we propose reinstating the genus Pseudidiomarina as a monophyletic taxon. Taken together, this is the first genome-based study of the taxonomy and diversity of bacteria within the family Idiomarinaceae, and will contribute to further insights into microbial evolution and adaptation to saline environments.

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“…Christensen [66] and nitrate reduction following Schaal et al [67]. The tolerance tests were carried out in triplicate and incubated for 3 weeks at 28°C, apart from the temperature tests.…”

Section: Phenotypic Propertiesmentioning

confidence: 99%

Geodermatophilus chilensis sp. nov., from soil of the Yungay core-region of the Atacama Desert, Chile

Castro

Nouioui

Sangal

et al. 2018

Systematic and Applied Microbiology

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A polyphasic study was undertaken to establish the taxonomic status of three representative Geodermatophilus strains isolated from an extreme hyper-arid Atacama Desert soil. The strains, isolates B12, B20 and B25, were found to have chemotaxonomic and morphological properties characteristic of the genus Geodermatophilus. The isolates shared a broad range of chemotaxonomic, cultural and physiological features, formed a well-supported branch in the Geodermatophilus 16S rRNA gene tree in which they were most closely associated with the type strain of Geodermatophilus obscurus. They were distinguished from the latter by BOX-PCR fingerprint patterns and by chemotaxonomic and other phenotypic properties. Average nucleotide identity, average amino acid identity and digital DNA-DNA hybridization values between the whole genome sequences of isolate B12 and G. obscurus DSM 43160 were 89.28%, 87.27% and 37.4%, respectively, metrics consistent with its classification as a separate species. On the basis of these data, it is proposed that the isolates be assigned to the genus Geodermatophilus as Geodermatophilus chilensis sp. nov. with isolate B12 (CECT 9483=NCIMB 15089) as the type strain. Analysis of the whole genome sequence of G. chilensis B12 with 5341 open reading frames and a genome size of 5.5Mb highlighted genes and gene clusters that encode for properties relevant to its adaptation to extreme environmental conditions prevalent in extreme hyper-arid Atacama Desert soils.

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Genome-Scale Data Call for a Taxonomic Rearrangement of Geodermatophilaceae

Cited by 90 publications

References 90 publications

Genome-Based Taxonomic Classification of the Phylum Actinobacteria

Genome-Based Taxonomic Classification of the Phylum Actinobacteria

Genome-Based Analysis Reveals the Taxonomy and Diversity of the Family Idiomarinaceae

Geodermatophilus chilensis sp. nov., from soil of the Yungay core-region of the Atacama Desert, Chile

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