Application of Multi Locus Sequence Typing to the analysis of the biodiversity of indigenous Saccharomyces cerevisiae wine yeasts from Lebanon

Ayoub, Marie-José; Legras, Jean Luc; Saliba, Rachad; Gaillardin, Claude

doi:10.1111/j.1365-2672.2006.02817.x

Cited by 59 publications

(54 citation statements)

References 46 publications

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“…Of the remaining wine strains not included in the ''wine'' cluster, three commercial strains-Primeur, 71B, and S101-reside in a small cluster on the left side, highlighted in orange, that also contains the remaining two bread strains (Morocco Bread and Sardinian Commercial, which are extremely similar to each other based on this analysis); this is in agreement with studies reporting that the Primeur and 71B wine yeasts have genomic similarity to bread yeasts by both microsatellite repeat and multilocus sequence analysis (Fay and Benavides 2005a;Ayoub et al 2006;Legras et al 2007). The remaining nine commercial wine strains do not appear in any distinct clusters.…”

Section: Subtelomeric Regionssupporting

confidence: 79%

“…Numerous methods have been used to assay genomic variation in yeast and determine relationships between strains, and also used to infer strain origins and history (e.g., Schuller et al 2004;Legras et al 2005). Such studies include comparative analyses of microsatellites (Legras et al 2007;Franco-Duarte et al 2009;Muller and McCusker 2009b;Richards et al 2009), mini-and megasatellites (Richard and Dujon 2006;Rolland et al 2010), copy number variation using aCGH (Pérez-Ortín et al 2002;Infante et al 2003;Winzeler et al 2003;Dunn et al 2005;Carreto et al 2008;Kvitek et al 2008), and polymorphisms detected by tiling arrays (Schacherer et al 2009), as well as the use of multispecies 131-gene taxonomic microarrays (Muller and McCusker 2009a) and Multi Locus Sequence Typing (MLST) (Fay and Benavides 2005a,b;Ayoub et al 2006;Vigentini et al 2009). These studies have mostly shown that yeasts used for a particular industrial use appear to be more closely related, but that geographical migrations, as well as genetic drift, have influenced diversity among S. cerevisiae populations (Legras et al 2007).…”

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confidence: 99%

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Analysis of the Saccharomyces cerevisiae pan-genome reveals a pool of copy number variants distributed in diverse yeast strains from differing industrial environments

Dunn¹,

Richter²,

Kvitek³

et al. 2012

Genome Res.

201

182

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Although the budding yeast Saccharomyces cerevisiae is arguably one of the most well-studied organisms on earth, the genome-wide variation within this species—i.e., its “pan-genome”—has been less explored. We created a multispecies microarray platform containing probes covering the genomes of several Saccharomyces species: S. cerevisiae, including regions not found in the standard laboratory S288c strain, as well as the mitochondrial and 2-μm circle genomes–plus S. paradoxus, S. mikatae, S. kudriavzevii, S. uvarum, S. kluyveri, and S. castellii. We performed array-Comparative Genomic Hybridization (aCGH) on 83 different S. cerevisiae strains collected across a wide range of habitats; of these, 69 were commercial wine strains, while the remaining 14 were from a diverse set of other industrial and natural environments. We observed interspecific hybridization events, introgression events, and pervasive copy number variation (CNV) in all but a few of the strains. These CNVs were distributed throughout the strains such that they did not produce any clear phylogeny, suggesting extensive mating in both industrial and wild strains. To validate our results and to determine whether apparently similar introgressions and CNVs were identical by descent or recurrent, we also performed whole-genome sequencing on nine of these strains. These data may help pinpoint genomic regions involved in adaptation to different industrial milieus, as well as shed light on the course of domestication of S. cerevisiae.

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Section: Subtelomeric Regionssupporting

confidence: 79%

mentioning

confidence: 99%

Analysis of the Saccharomyces cerevisiae pan-genome reveals a pool of copy number variants distributed in diverse yeast strains from differing industrial environments

Dunn¹,

Richter²,

Kvitek³

et al. 2012

Genome Res.

201

182

View full text Add to dashboard Cite

show abstract

“…For example, within the sequenced diploid strain SC5314 of the human pathogenic yeast Candida albicans, there is an SNP frequency of~1 % per nucleotide (Jones et al, 2004). Similarly, a survey of seven genomic loci (3013 nt in total) for 84 natural strains of the model yeast Saccharomyces cerevisiae from Asia has identified a total of 62 SNPs, yielding an SNP frequency of 2.05 % per nucleotide (Ayoub et al, 2006). The SNP frequencies are higher in populations of several opportunistic pathogenic yeasts, such as Candida parapsilosis (~3.4 %; Fundyga et al, 2004), and the species complexes of Candida guilliermondii (~6.3 %; Lan & Xu, 2006) and Cryptococcus neoformans (~20 % per nucleotide; Xu et al, 2000b).…”

Section: Discussionmentioning

confidence: 99%

Single nucleotide polymorphisms in the ectomycorrhizal mushroom Tricholoma matsutake

Guo

Yang

2007

Microbiology

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Single nucleotide polymorphisms (SNPs) are becoming increasingly popular markers for studying a variety of biological phenomena. This paper describes the development and analysis of a set of SNP markers for the basidiomycete fungus Tricholoma matsutake. T. matsutake is a gourmet mycorrhizal mushroom primarily associated with pine forests. However, little is known about its genetics and genomic variation, including SNP variation. To identify and analyse SNPs in T. matsutake, a genomic library was constructed and .72 000 nt were analysed from .200 random clones. Primers from 20 sequenced fragments were then designed to amplify and sequence .10 000 bp sequences from the original strain, from which the genomic library was constructed, as well as another strain from .350 km away; both strains were from south-western China. These two strains had similar intra-strain SNP frequencies (1.104 and 1.278 % per nucleotide, respectively). The combined analysis revealed that 14 of the 20 examined fragments contained SNPs, ranging from two to 47 per fragment, and yielding a total of 178 SNPs out of the 10 428 sequenced nucleotides (an SNP frequency of 1.707 %). Among the 178 SNPs, one site had three alternative nucleotides, while the remaining 177 had two each, with 148 transitions and 29 transversions, resulting in a combined transition to transversion ratio of 5.1. In addition, the haplotype phases of all SNPs within individual fragments for both strains were determined. Phylogenetic analyses of these haplotypes revealed three kinds of haplotype relationship, including haplotype sharing both within and between strains. Furthermore, a subset of the SNPs detectable by restriction enzyme digests was screened for its distribution among 31 additional wild strains from five distinct locations in south-western China. The implications of these SNPs and haplotypes for our understanding of the genetics, population history, ecology and evolution of this important mushroom species are discussed.

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“…Subsequently, most researchers who set up MLST systems for other bacteria followed this tradition. However, when MLST systems were used in fungal pathogens, it was observed that the discriminatory power was often not satisfactory when only housekeeping genes were used (1,27,34). On the other hand, when one or two nonhousekeeping genes were also included as targets, the discriminatory power was improved (19,21).…”

Section: Discussionmentioning

confidence: 99%

MP1 Homologue-Based Multilocus Sequence System for Typing the Pathogenic Fungus Penicillium marneffei : a Novel Approach Using Lineage-Specific Genes

et al. 2007

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A highly reproducible and discriminative typing system is essential for better understanding of the epidemiology of Penicillium marneffei, the most important thermal dimorphic fungus causing respiratory, skin, and systemic mycosis in Southeast Asia. The sequences of 11 housekeeping genes were identical among 10 strains of P. marneffei, but those of MP1 and its 13 homologues, a novel superfamily of mannoproteins in the subdivision Pezizomycotina of Ascomycetes, mostly species of Penicillium and Aspergillus, showed significant variations. Therefore, a multilocus sequence typing (MLST) system for P. marneffei was constructed using MP1

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Application of Multi Locus Sequence Typing to the analysis of the biodiversity of indigenous Saccharomyces cerevisiae wine yeasts from Lebanon

Cited by 59 publications

References 46 publications

Analysis of the Saccharomyces cerevisiae pan-genome reveals a pool of copy number variants distributed in diverse yeast strains from differing industrial environments

Analysis of the Saccharomyces cerevisiae pan-genome reveals a pool of copy number variants distributed in diverse yeast strains from differing industrial environments

Single nucleotide polymorphisms in the ectomycorrhizal mushroom Tricholoma matsutake

MP1 Homologue-Based Multilocus Sequence System for Typing the Pathogenic Fungus Penicillium marneffei : a Novel Approach Using Lineage-Specific Genes

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