Identification of Nitrogen Consumption Genetic Variants in Yeast Through QTL Mapping and Bulk Segregant RNA-Seq Analyses

Cubillos, Francisco A.; Brice, Claire; Molinet, Jennifer; Tisné, Sébastien; Abarca, Valentina; Tapia, Sebastián M.; Oporto, Christian I.; García, Verónica; Liti, Gianni; Martı́nez, Claudio

doi:10.1534/g3.117.042127

Cited by 48 publications

(63 citation statements)

References 90 publications

(128 reference statements)

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“…In this scenario, an alternative to study the TORC1 pathway is the use of genetic approaches, such as those that have been used to shed light into the molecular bases that underlie the phenotypic variability in nitrogen consumption in yeasts (Brice, Sanchez, Bigey, Legras, & Blondin, ; Contreras et al, ; Cubillos et al, ; Gutierrez, Beltran, Warringer, & Guillamon, ; Ibstedt et al, ; Jara et al, ). However, linkage approaches require phenotyping of a larger number of strains, which is unaffordable for monitoring TORC1 activity using the abovementioned methodologies based on immunoblot detection.…”

Section: Introductionmentioning

confidence: 99%

“…In this scenario, an alternative to study the TORC1 pathway is the use of genetic approaches, such as those that have been used to shed light into the molecular bases that underlie the phenotypic variability in nitrogen consumption in yeasts (Brice, Sanchez, Bigey, Legras, & Blondin, 2014;Contreras et al, 2012;Cubillos et al, 2017;Gutierrez, Beltran, Warringer, & Guillamon, 2013;Ibstedt et al, 2015;Jara et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Indirect monitoring of TORC1 signalling pathway reveals molecular diversity among different yeast strains

Kessi-Pérez

Salinas

Molinet

et al. 2018

Yeast

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Saccharomyces cerevisiae is the main species responsible for the alcoholic fermentation in wine production. One of the main problems in this process is the deficiency of nitrogen sources in the grape must, which can lead to stuck or sluggish fermentations. Currently, yeast nitrogen consumption and metabolism are under active inquiry, with emphasis on the study of the TORC1 signalling pathway, given its central role responding to nitrogen availability and influencing growth and cell metabolism. However, the mechanism by which different nitrogen sources activates TORC1 is not completely understood. Existing methods to evaluate TORC1 activation by nitrogen sources are time-consuming, making difficult the analyses of large numbers of strains. In this work, a new indirect method for monitoring TORC1 pathway was developed on the basis of the luciferase reporter gene controlled by the promoter region of RPL26A gene, a gene known to be expressed upon TORC1 activation. The method was tested in strains representative of the clean lineages described so far in S. cerevisiae. The activation of the TORC1 pathway by a proline-to-glutamine upshift was indirectly evaluated using our system and the traditional direct methods based on immunoblot (Sch9 and Rps6 phosphorylation). Regardless of the different molecular readouts obtained with both methodologies, the general results showed a wide phenotypic variation between the representative strains analysed. Altogether, this easy-to-use assay opens the possibility to study the molecular basis for the differential TORC1 pathway activation, allowing to interrogate a larger number of strains in the context of nitrogen metabolism phenotypic differences.

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Section: Introductionmentioning

confidence: 99%

“…In this scenario, an alternative to study the TORC1 pathway is the use of genetic approaches, such as those that have been used to shed light into the molecular bases that underlie the phenotypic variability in nitrogen consumption in yeasts (Brice, Sanchez, Bigey, Legras, & Blondin, 2014;Contreras et al, 2012;Cubillos et al, 2017;Gutierrez, Beltran, Warringer, & Guillamon, 2013;Ibstedt et al, 2015;Jara et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Indirect monitoring of TORC1 signalling pathway reveals molecular diversity among different yeast strains

Kessi-Pérez

Salinas

Molinet

et al. 2018

Yeast

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“…The set of lines destined for extinction is a valuable, but transient, population that is only available during the creation of a multi-parental population (MPP). To our knowledge, this is a unique resource as other similar research populations do not retain this level of information during inbreeding (Kover et al 2009;McMullen et al 2009;Huang et al 2011;King et al 2012;Pekkala et al 2012;Pool et al 2012;Bouchet et al 2017;Cubillos et al 2017;Mangandi et al 2017;Raghavan et al 2017;Tisné et al 2017). With detailed genotyping and reproductive phenotyping of CC lines that were declared extinct, we can address questions related to survivability and line extinction during the process of inbreeding.…”

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confidence: 99%

Male Infertility Is Responsible for Nearly Half of the Extinction Observed in the Mouse Collaborative Cross

et al. 2017

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The goal of the Collaborative Cross (CC) project was to generate and distribute over 1000 independent mouse recombinant inbred strains derived from eight inbred founders. With inbreeding nearly complete, we estimated the extinction rate among CC lines at a remarkable 95%, which is substantially higher than in the derivation of other mouse recombinant inbred populations. Here, we report genome-wide allele frequencies in 347 extinct CC lines. Contrary to expectations, autosomes had equal allelic contributions from the eight founders, but chromosome had significantly lower allelic contributions from the two inbred founders with underrepresented subspecific origins (PWK/PhJ and CAST/EiJ). By comparing extinct CC lines to living CC strains, we conclude that a complex genetic architecture is driving extinction, and selection pressures are different on the autosomes and chromosome Male infertility played a large role in extinction as 47% of extinct lines had males that were infertile. Males from extinct lines had high variability in reproductive organ size, low sperm counts, low sperm motility, and a high rate of vacuolization of seminiferous tubules. We performed QTL mapping and identified nine genomic regions associated with male fertility and reproductive phenotypes. Many of the allelic effects in the QTL were driven by the two founders with underrepresented subspecific origins, including a QTL on chromosome for infertility that was driven by the PWK/PhJ haplotype. We also performed the first example of cross validation using complementary CC resources to verify the effect of sperm curvilinear velocity from the PWK/PhJ haplotype on chromosome 2 in an independent population across multiple generations. While selection typically constrains the examination of reproductive traits toward the more fertile alleles, the CC extinct lines provided a unique opportunity to study the genetic architecture of fertility in a widely genetically variable population. We hypothesize that incompatibilities between alleles with different subspecific origins is a key driver of infertility. These results help clarify the factors that drove strain extinction in the CC, reveal the genetic regions associated with poor fertility in the CC, and serve as a resource to further study mammalian infertility.

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“…We selected 22 genes involved in nitrogen associated phenotypes during the fermentation process, identified by QTL mapping and validated by reciprocal hemizygosity analyses (i.e., with a demonstrated effect over the phenotype) [26,35,[38][39][40]52]. Importantly, most of the selected genes were mapped using yeast populations where the founder strains are the DBVPG6765 (WE), DBVPG6044 (WA), YPS128 (NA) and Y12 (SA) strains [22,23].…”

Section: Gene Selection and Genomic Information Obtentionmentioning

confidence: 99%

“…Among these phenotypes, our group has systematically focused its interest on nitrogen associated phenotypes, due to the importance of nitrogen sources for the fermentation process, being its deficiencies the principal cause of stuck and sluggish fermentations (reviewed in [36,37]). In this sense, we have mapped multiple QTLs related to nitrogen consumption using yeast populations derived from the four representative strains (WE, WA, NA and SA), validating the specific causative genes by reciprocal hemizygosity approaches [35,[38][39][40]. However, it is not fully understood which fraction of the genetic diversity observed in the species is represented by the alleles mapped in these QTL experiments, making necessary performing bioinformatic analyses to assess these contributions.…”

Section: Introductionmentioning

confidence: 99%

Comparison of Phylogenetic Tree Topologies for Nitrogen Associated Genes Partially Reconstruct the Evolutionary History of Saccharomyces cerevisiae

et al. 2019

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Massive sequencing projects executed in Saccharomyces cerevisiae have revealed in detail its population structure. The recent “1002 yeast genomes project” has become the most complete catalogue of yeast genetic diversity and a powerful resource to analyse the evolutionary history of genes affecting specific phenotypes. In this work, we selected 22 nitrogen associated genes and analysed the sequence information from the 1011 strains of the “1002 yeast genomes project”. We constructed a total evidence (TE) phylogenetic tree using concatenated information, which showed a 27% topology similarity with the reference (REF) tree of the “1002 yeast genomes project”. We also generated individual phylogenetic trees for each gene and compared their topologies, identifying genes with similar topologies (suggesting a shared evolutionary history). Furthermore, we pruned the constructed phylogenetic trees to compare the REF tree topology versus the TE tree and the individual genes trees, considering each phylogenetic cluster/subcluster within the population, observing genes with cluster/subcluster topologies of high similarity to the REF tree. Finally, we used the pruned versions of the phylogenetic trees to compare four strains considered as representatives of S. cerevisiae clean lineages, observing for 15 genes that its cluster topologies match 100% the REF tree, supporting that these strains represent main lineages of yeast population. Altogether, our results showed the potential of tree topologies comparison for exploring the evolutionary history of a specific group of genes.

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Identification of Nitrogen Consumption Genetic Variants in Yeast Through QTL Mapping and Bulk Segregant RNA-Seq Analyses

Cited by 48 publications

References 90 publications

Indirect monitoring of TORC1 signalling pathway reveals molecular diversity among different yeast strains

Indirect monitoring of TORC1 signalling pathway reveals molecular diversity among different yeast strains

Male Infertility Is Responsible for Nearly Half of the Extinction Observed in the Mouse Collaborative Cross

Comparison of Phylogenetic Tree Topologies for Nitrogen Associated Genes Partially Reconstruct the Evolutionary History of Saccharomyces cerevisiae

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