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1.
Int J Syst Evol Microbiol ; 70(8): 4432-4450, 2020 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-32735208

RESUMEN

The genus Chryseobacterium in the family Weeksellaceae is known to be polyphyletic. Amino acid identity (AAI) values were calculated from whole-genome sequences of species of the genus Chryseobacterium, and their distribution was found to be multi-modal. These naturally-occurring non-continuities were leveraged to standardise genus assignment of these species. We speculate that this multi-modal distribution is a consequence of loss of biodiversity during major extinction events, leading to the concept that a bacterial genus corresponds to a set of species that diversified since the Permian extinction. Transfer of nine species (Chryseobacterium arachidiradicis, Chryseobacterium bovis, Chryseobacterium caeni, Chryseobacterium hispanicum, Chryseobacterium hominis, Chryseobacterium hungaricum,, Chryseobacterium pallidum and Chryseobacterium zeae) to the genus Epilithonimonas and eleven (Chryseobacterium anthropi, Chryseobacterium antarcticum, Chryseobacterium carnis, Chryseobacterium chaponense, Chryseobacterium haifense, Chryseobacterium jeonii, Chryseobacterium montanum, Chryseobacterium palustre, Chryseobacterium solincola, Chryseobacterium treverense and Chryseobacterium yonginense) to the genus Kaistella is proposed. Two novel species are described: Kaistella daneshvariae sp. nov. and Epilithonimonas vandammei sp. nov. Evidence is presented to support the assignment of Planobacterium taklimakanense to a genus apart from Chryseobacterium, to which Planobacterium salipaludis comb nov. also belongs. The novel genus Halpernia is proposed, to contain the type species Halpernia frigidisoli comb. nov., along with Halpernia humi comb. nov., and Halpernia marina comb. nov.


Asunto(s)
Chryseobacterium/clasificación , Filogenia , Aminoácidos/química , Extinción Biológica
2.
Fungal Genet Biol ; 130: 31-42, 2019 09.
Artículo en Inglés | MEDLINE | ID: mdl-31026590

RESUMEN

Delineation and characterization of genera in Trichosporonales (Agaricomycotina, Basidiomycota) was performed using 24 haploid and 3 naturally occurring hybrid genomes, with 3 Tremellales genomes used as outgroups. Orthologous group analysis of those genomes showed presence-absence patterns of orthologs that were consistent with the genus classifications. Many shared unique orthologs were identified in the well-supported lineages (genera Apiotrichum and Trichosporon), supporting the definitions of the genera Apiotrichum and Trichosporon from a genomic perspective. Specifically, we obtained 24 and 285 genus-specific genes from eight Apiotrichum and five Trichosporon species, respectively, and propose that these genus-specific genes can be used for delineation of those genera. On the other hand, the genus Cutaneotrichosporon shared only one genus-specific gene among eight genomes, indicating that this genus definition might require re-examination based on genomic data. In addition, taxonomic revisions are presented in this study, including the proposal of two genera, Pascua and Prillingera. Because genomic data can be systematically obtained and analyzed to compare species from a comprehensive viewpoint, they can be used not only to reconstruct reliable phylogenetic trees, but also to re-examine the definitions of taxonomic classifications. To our knowledge, this is the first report to discuss the 'natural system' of genus level classification in fungi based on genomic data.


Asunto(s)
Basidiomycota/clasificación , Basidiomycota/genética , Genoma Fúngico , Genómica , Filogenia , Basidiomycota/aislamiento & purificación , Proteínas Fúngicas/genética , Genes Fúngicos , Haploidia , Fenotipo , Análisis de Secuencia , Trichosporon/clasificación , Trichosporon/genética , Ubiquinona
3.
Front Microbiol ; 14: 1293707, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-38045027

RESUMEN

The family Halomonadaceae is the largest family composed of halophilic bacteria, with more than 160 species with validly published names as of July 2023. Several classifications to circumscribe this family are available in major resources, such as those provided by the List of Prokaryotic names with Standing in Nomenclature (LPSN), NCBI Taxonomy, Genome Taxonomy Database (GTDB), and Bergey's Manual of Systematics of Archaea and Bacteria (BMSAB), with some degree of disagreement between them. Moreover, regardless of the classification adopted, the genus Halomonas is not phylogenetically consistent, likely because it has been used as a catch-all for newly described species within the family Halomonadaceae that could not be clearly accommodated in other Halomonadaceae genera. In the past decade, some taxonomic rearrangements have been conducted on the Halomonadaceae based on ribosomal and alternative single-copy housekeeping gene sequence analysis. High-throughput technologies have enabled access to the genome sequences of many type strains belonging to the family Halomonadaceae; however, genome-based studies specifically addressing its taxonomic status have not been performed to date. In this study, we accomplished the genome sequencing of 17 missing type strains of Halomonadaceae species that, together with other publicly available genome sequences, allowed us to re-evaluate the genetic relationship, phylogeny, and taxonomy of the species and genera within this family. The approach followed included the estimate of the Overall Genome Relatedness Indexes (OGRIs) such as the average amino acid identity (AAI), phylogenomic reconstructions using amino acid substitution matrices customized for the family Halomonadaceae, and the analysis of clade-specific signature genes. Based on our results, we conclude that the genus Halovibrio is obviously out of place within the family Halomonadaceae, and, on the other hand, we propose a division of the genus Halomonas into seven separate genera and the transfer of seven species from Halomonas to the genus Modicisalibacter, together with the emendation of the latter. Additionally, data from this study demonstrate the existence of various synonym species names in this family.

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