Last data update: Jan 27, 2025. (Total: 48650 publications since 2009)
Records 1-2 (of 2 Records) |
Query Trace: Adekambi T[original query] |
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Core gene set as the basis of multilocus sequence analysis of the subclass Actinobacteridae.
Adekambi T , Butler RW , Hanrahan F , Delcher AL , Drancourt M , Shinnick TM . PLoS One 2011 6 (3) e14792 ![]() Comparative genomic sequencing is shedding new light on bacterial identification, taxonomy and phylogeny. An in silico assessment of a core gene set necessary for cellular functioning was made to determine a consensus set of genes that would be useful for the identification, taxonomy and phylogeny of the species belonging to the subclass Actinobacteridae which contained two orders Actinomycetales and Bifidobacteriales. The subclass Actinobacteridae comprised about 85% of the actinobacteria families. The following recommended criteria were used to establish a comprehensive gene set; the gene should (i) be long enough to contain phylogenetically useful information, (ii) not be subject to horizontal gene transfer, (iii) be a single copy (iv) have at least two regions sufficiently conserved that allow the design of amplification and sequencing primers and (v) predict whole-genome relationships. We applied these constraints to 50 different Actinobacteridae genomes and made 1,224 pairwise comparisons of the genome conserved regions and gene fragments obtained by using Sequence VARiability Analysis Program (SVARAP), which allow designing the primers. Following a comparative statistical modeling phase, 3 gene fragments were selected, ychF, rpoB, and secY with R(2)>0.85. Selected sets of broad range primers were tested from the 3 gene fragments and were demonstrated to be useful for amplification and sequencing of 25 species belonging to 9 genera of Actinobacteridae. The intraspecies similarities were 96.3-100% for ychF, 97.8-100% for rpoB and 96.9-100% for secY among 73 strains belonging to 15 species of the subclass Actinobacteridae compare to 99.4-100% for 16S rRNA. The phylogenetic topology obtained from the combined datasets ychF+rpoB+secY was globally similar to that inferred from the 16S rRNA but with higher confidence. It was concluded that multi-locus sequence analysis using core gene set might represent the first consensus and valid approach for investigating the bacterial identification, phylogeny and taxonomy. |
Revival and emended description of 'Mycobacterium paraffinicum' (Davis, Chase and Raymond 1956) as Mycobacterium paraffinicum (ex Davis, Chase and Raymond 1956) sp. nov., nom. rev
Toney NC , Adekambi T , Toney S , Yakrus M , Butler WR . Int J Syst Evol Microbiol 2009 60 (10) 2307-2313 The omission of the name 'Mycobacterium paraffinicum' from the 1980 Approved List of Bacterial Names was due to phenotypic confusion surrounding a close relationship with Mycobacterium scrofulaceum. Correspondingly 'M. paraffinicum' strains grew slowly in >7 days, stained acid-alcohol fast, produced yellow-pigmented smooth waxy colonies in the dark at an optimal temperature of 35 degrees C. However 'M. paraffinicum' strains demonstrated no activity for urease, nicotinamidase or pyrazinamidase, and lacked growth at 42 degrees C as compared to M. scrofulaceum. The mycolic acid pattern as determined by high performance liquid chromatography (HPLC) clustered 'M. paraffinicum' with M. scrofulaceum, Mycobacterium avium, and Mycobacterium parascrofulaceum. Strains were fully susceptible to linezolid, rifabutin, clarithromycin and amikacin. Examination of the historical reference strain of 'M. paraffinicum' ATCC 12670 and five additional isolates using comparative gene studies with 16S rRNA, hsp65, rpoB and concatenated sequences demonstrated separate, monophyletic tree branching that was distinct from similar nontuberculous mycobacteria and formed a tight taxonomical group with the classical reference strain of 'M. paraffinicum'. Multilocus enzyme electrophoresis (MEE) analysis confirmed a close association of the five additional isolates with the reference strain of 'M. paraffinicum' with a genetic distance of 0.12 and was distinct from other closely related species. These genetic results provided unambiguous evidence of the uniqueness of the slow-growing, scotochromogenic species and supported the revival of the name as Mycobacterium paraffinicum (ex Davis, Chase and Raymond 1956) sp. nov., nom. rev. We propose the previously deposited reference strain located in the worldwide collections as the type strain ATCC 12670T =DSM 44181T =NCIMB10420T. |
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