2016
DOI: 10.1016/j.simyco.2016.11.007
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DNA barcoding analysis of more than 9 000 yeast isolates contributes to quantitative thresholds for yeast species and genera delimitation

Abstract: DNA barcoding is a global initiative for species identification through sequencing of short DNA sequence markers. Sequences of two loci, ITS and LSU, were generated as barcode data for all (ca. 9k) yeast strains included in the CBS collection, originally assigned to ca. 2 000 species. Taxonomic sequence validation turned out to be the most severe bottleneck due to the large volume of generated trace files and lack of reference sequences. We have analysed and validated CBS strains and barcode sequences automati… Show more

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Cited by 249 publications
(234 citation statements)
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“…But we do not consider this strain as the same species, since the raw sequence read had even more differences: matching 483 of 486 nucleotides and a single gap (Dr. Boundy-Mills, personal communication). Thus, the similarity between the strains is less than the average level 99.51 % for D1/D2 domains of LSU which allows us to formally consider the strains as different species [26]. However, due to the impossibility of receiving the additional data we cannot exclude that the related strain is the same species from another habitat.…”
mentioning
confidence: 99%
“…But we do not consider this strain as the same species, since the raw sequence read had even more differences: matching 483 of 486 nucleotides and a single gap (Dr. Boundy-Mills, personal communication). Thus, the similarity between the strains is less than the average level 99.51 % for D1/D2 domains of LSU which allows us to formally consider the strains as different species [26]. However, due to the impossibility of receiving the additional data we cannot exclude that the related strain is the same species from another habitat.…”
mentioning
confidence: 99%
“…According to ITS sequences, fungal isolates obtained from olive drupes and brine were identified as P. crustosum (Visagie et al, ), Aspergillus sect. Nidulantes (Samson et al, ), Malassezia restricta (Castellá, Dall'Acqua Coutinho, & Cabañes, ), and Galactomyces candidum (Vu et al, ). The list of fungal taxa and relative GenBank accession numbers are reported in Table .…”
Section: Resultsmentioning
confidence: 99%
“…After incubation, cell morphology was studied by using a phase-contrast microscope. A study of pseudohyphae formation was performed via slide culture on potato dextrose agar (PDA) at 25 • C. Growth at various temperatures was determined by cultivation yeast on YM agar incubated at 15,25,30,35,37,40 and 45 • C. Ascospore formation was examined for individual strains, and the culture was mixed at weekly intervals for three months on YM agar, YPD agar, PDA agar, corn meal agar (CMA), 5% malt extract agar, Gorodkowa agar, and Fowell's acetate agar [31] at 25 • C. The assimilation of carbon and nitrogen compounds was investigated in a liquid medium.…”
Section: Phenotypic Characterization Of Yeastmentioning
confidence: 99%
“…According to the criterion proposed by [39], the yeast strain showed greater than 1% nucleotide substitutions of the D1/D2 domain of the LSU rRNA gene, compared with the type strains of species representing a distinguished species (the multiple alignment of the D1/D2 domain of the large subunit (LSU) rRNA gene, SSU, RPB I, RPB II and EF-1α, and genes of the strains DMKU-JMGT1-45 T , DMKU-JMGT4-14, C. incommunis and Deakozyma indianesis are shown in Figures S1-S5, respectively). Meanwhile, according to the guidelines proposed by [40], the discrimination of current yeast genera possessing similarity thresholds of lower than 96.31% for ITS and 97.11% for LSU are taken to be different taxa. Based on the analysis of sequence similarity of the D1/D2 domain of the LSU rRNA gene and the ITS region, the strains DMKU-JMGT1-45 T and DMKU-JMGT4-14 differ from their closest species, Candida incommunis CBS 5604 T , by 10.41% nucleotide substitutions (53 nucleotide substitutions and 25 gaps of 509 nucleotides) and 20.96% nucleotide substitutions (87 nucleotide substitutions and 46 gaps of 415 nucleotides) of the ITS region.…”
Section: Molecular Genetic Characterizationmentioning
confidence: 99%