Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization

Véronique Leh Louis; Laurence Despons; Anne Friedrich; Tiphaine Martin; Pascal Durrens; Serge Casarégola; Cécile Neuvéglise; Cécile Fairhead; Christian Marck; José A. Cruz; Marie Laure Straub; Valérie Kugler; Christine Sacerdot; Zlatyo Uzunov; Agnes Thierry; Stéphanie Weiss; Claudine Bleykasten; Jacky De Montigny; Noemie Jacques; Paul Jung; Marc Lemaire; Sandrine Mallet; Guillaume Morel; Guy Franck Richard; Anasua Sarkar; Guilhem Savel; Joseph Schacherer; Marie Line Seret; Emmanuel Talla; Gaelle Samson; Claire Jubin; Julie Poulain; Benoît Vacherie; Valérie Barbe; Eric Pelletier; David J. Sherman; Eric Westhof; Jean Weissenbach; Philippe V. Baret; Patrick Wincker; Claude Gaillardin; Bernard Dujon; Jean Luc Souciet

doi:10.1534/g3.111.000745

Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization

Véronique Leh Louis, Laurence Despons, Anne Friedrich, Tiphaine Martin, Pascal Durrens, Serge Casarégola, Cécile Neuvéglise, Cécile Fairhead, Christian Marck, José A. Cruz, Marie Laure Straub, Valérie Kugler, Christine Sacerdot, Zlatyo Uzunov, Agnes Thierry, Stéphanie Weiss, Claudine Bleykasten, Jacky De Montigny, Noemie Jacques, Paul JungMarc Lemaire, Sandrine Mallet, Guillaume Morel, Guy Franck Richard, Anasua Sarkar, Guilhem Savel, Joseph Schacherer, Marie Line Seret, Emmanuel Talla, Gaelle Samson, Claire Jubin, Julie Poulain, Benoît Vacherie, Valérie Barbe, Eric Pelletier, David J. Sherman, Eric Westhof, Jean Weissenbach, Philippe V. Baret, Patrick Wincker, Claude Gaillardin, Bernard Dujon, Jean Luc Souciet

Research output: Contribution to journal › Article › peer-review

88 Scopus citations

Abstract

Polyploidization is an important process in the evolution of eukaryotic genomes, but ensuing molecular mechanisms remain to be clarified. Autopolyploidization or whole-genome duplication events frequently are resolved in resulting lineages by the loss of single genes from most duplicated pairs, causing transient gene dosage imbalance and accelerating speciation through meiotic infertility. Allopolyploidization or formation of interspecies hybrids raises the problem of genetic incompatibility (Bateson-Dobzhansky-Muller effect) andmay be resolved by the accumulation of mutational changes in resulting lineages. In this article, we show that an osmotolerant yeast species, Pichia sorbitophila, recently isolated in a concentrated sorbitol solution in industry, illustrates this last situation. Its genome is amosaic of homologous and homeologous chromosomes, or parts thereof, that corresponds to a recently formed hybrid in the process of evolution. The respective parental contributions to this genome were characterized using existing variations in GC content. The genomic changes that occurred during the short period since hybrid formation were identified (e.g., loss of heterozygosity, unilateral loss of rDNA, reciprocal exchange) and distinguished from those undergone by the two parental genomes after separation from their common ancestor (i.e., NUMT (NUclear sequences of MiTochondrial origin) insertions, gene acquisitions, gene location movements, reciprocal translocation). We found that the physiological characteristics of this new yeast species are determined by specific but unequal contributions of its two parents, one of which could be identified as very closely related to an extant Pichia farinosa strain.

Original language	English
Pages (from-to)	299-311
Number of pages	13
Journal	G3: Genes, Genomes, Genetics
Volume	2
Issue number	2
DOIs	https://doi.org/10.1534/g3.111.000745
State	Published - Feb 2012
Externally published	Yes

Keywords

Allopolyploidy
Genome evolution
Hybridization
Loss of heterozygosity
Osmotolerant Yeast P. sorbitophila

Access to Document

10.1534/g3.111.000745

Cite this

Louis, V. L., Despons, L., Friedrich, A., Martin, T., Durrens, P., Casarégola, S., Neuvéglise, C., Fairhead, C., Marck, C., Cruz, J. A., Straub, M. L., Kugler, V., Sacerdot, C., Uzunov, Z., Thierry, A., Weiss, S., Bleykasten, C., Montigny, J. D., Jacques, N., ... Souciet, J. L. (2012). Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization. G3: Genes, Genomes, Genetics, 2(2), 299-311. https://doi.org/10.1534/g3.111.000745

@article{c681b1782f9a47dca95e2fe625def895,

title = "Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization",

abstract = "Polyploidization is an important process in the evolution of eukaryotic genomes, but ensuing molecular mechanisms remain to be clarified. Autopolyploidization or whole-genome duplication events frequently are resolved in resulting lineages by the loss of single genes from most duplicated pairs, causing transient gene dosage imbalance and accelerating speciation through meiotic infertility. Allopolyploidization or formation of interspecies hybrids raises the problem of genetic incompatibility (Bateson-Dobzhansky-Muller effect) andmay be resolved by the accumulation of mutational changes in resulting lineages. In this article, we show that an osmotolerant yeast species, Pichia sorbitophila, recently isolated in a concentrated sorbitol solution in industry, illustrates this last situation. Its genome is amosaic of homologous and homeologous chromosomes, or parts thereof, that corresponds to a recently formed hybrid in the process of evolution. The respective parental contributions to this genome were characterized using existing variations in GC content. The genomic changes that occurred during the short period since hybrid formation were identified (e.g., loss of heterozygosity, unilateral loss of rDNA, reciprocal exchange) and distinguished from those undergone by the two parental genomes after separation from their common ancestor (i.e., NUMT (NUclear sequences of MiTochondrial origin) insertions, gene acquisitions, gene location movements, reciprocal translocation). We found that the physiological characteristics of this new yeast species are determined by specific but unequal contributions of its two parents, one of which could be identified as very closely related to an extant Pichia farinosa strain.",

keywords = "Allopolyploidy, Genome evolution, Hybridization, Loss of heterozygosity, Osmotolerant Yeast P. sorbitophila",

author = "Louis, {V{\'e}ronique Leh} and Laurence Despons and Anne Friedrich and Tiphaine Martin and Pascal Durrens and Serge Casar{\'e}gola and C{\'e}cile Neuv{\'e}glise and C{\'e}cile Fairhead and Christian Marck and Cruz, {Jos{\'e} A.} and Straub, {Marie Laure} and Val{\'e}rie Kugler and Christine Sacerdot and Zlatyo Uzunov and Agnes Thierry and St{\'e}phanie Weiss and Claudine Bleykasten and Montigny, {Jacky De} and Noemie Jacques and Paul Jung and Marc Lemaire and Sandrine Mallet and Guillaume Morel and Richard, {Guy Franck} and Anasua Sarkar and Guilhem Savel and Joseph Schacherer and Seret, {Marie Line} and Emmanuel Talla and Gaelle Samson and Claire Jubin and Julie Poulain and Beno{\^i}t Vacherie and Val{\'e}rie Barbe and Eric Pelletier and Sherman, {David J.} and Eric Westhof and Jean Weissenbach and Baret, {Philippe V.} and Patrick Wincker and Claude Gaillardin and Bernard Dujon and Souciet, {Jean Luc}",

year = "2012",

month = feb,

doi = "10.1534/g3.111.000745",

language = "English",

volume = "2",

pages = "299--311",

journal = "G3: Genes, Genomes, Genetics",

issn = "2160-1836",

publisher = "Genetics Society of America",

number = "2",

}

Louis, VL, Despons, L, Friedrich, A, Martin, T, Durrens, P, Casarégola, S, Neuvéglise, C, Fairhead, C, Marck, C, Cruz, JA, Straub, ML, Kugler, V, Sacerdot, C, Uzunov, Z, Thierry, A, Weiss, S, Bleykasten, C, Montigny, JD, Jacques, N, Jung, P, Lemaire, M, Mallet, S, Morel, G, Richard, GF, Sarkar, A, Savel, G, Schacherer, J, Seret, ML, Talla, E, Samson, G, Jubin, C, Poulain, J, Vacherie, B, Barbe, V, Pelletier, E, Sherman, DJ, Westhof, E, Weissenbach, J, Baret, PV, Wincker, P, Gaillardin, C, Dujon, B & Souciet, JL 2012, 'Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization', G3: Genes, Genomes, Genetics, vol. 2, no. 2, pp. 299-311. https://doi.org/10.1534/g3.111.000745

TY - JOUR

T1 - Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization

AU - Louis, Véronique Leh

AU - Despons, Laurence

AU - Friedrich, Anne

AU - Martin, Tiphaine

AU - Durrens, Pascal

AU - Casarégola, Serge

AU - Neuvéglise, Cécile

AU - Fairhead, Cécile

AU - Marck, Christian

AU - Cruz, José A.

AU - Straub, Marie Laure

AU - Kugler, Valérie

AU - Sacerdot, Christine

AU - Uzunov, Zlatyo

AU - Thierry, Agnes

AU - Weiss, Stéphanie

AU - Bleykasten, Claudine

AU - Montigny, Jacky De

AU - Jacques, Noemie

AU - Jung, Paul

AU - Lemaire, Marc

AU - Mallet, Sandrine

AU - Morel, Guillaume

AU - Richard, Guy Franck

AU - Sarkar, Anasua

AU - Savel, Guilhem

AU - Schacherer, Joseph

AU - Seret, Marie Line

AU - Talla, Emmanuel

AU - Samson, Gaelle

AU - Jubin, Claire

AU - Poulain, Julie

AU - Vacherie, Benoît

AU - Barbe, Valérie

AU - Pelletier, Eric

AU - Sherman, David J.

AU - Westhof, Eric

AU - Weissenbach, Jean

AU - Baret, Philippe V.

AU - Wincker, Patrick

AU - Gaillardin, Claude

AU - Dujon, Bernard

AU - Souciet, Jean Luc

PY - 2012/2

Y1 - 2012/2

N2 - Polyploidization is an important process in the evolution of eukaryotic genomes, but ensuing molecular mechanisms remain to be clarified. Autopolyploidization or whole-genome duplication events frequently are resolved in resulting lineages by the loss of single genes from most duplicated pairs, causing transient gene dosage imbalance and accelerating speciation through meiotic infertility. Allopolyploidization or formation of interspecies hybrids raises the problem of genetic incompatibility (Bateson-Dobzhansky-Muller effect) andmay be resolved by the accumulation of mutational changes in resulting lineages. In this article, we show that an osmotolerant yeast species, Pichia sorbitophila, recently isolated in a concentrated sorbitol solution in industry, illustrates this last situation. Its genome is amosaic of homologous and homeologous chromosomes, or parts thereof, that corresponds to a recently formed hybrid in the process of evolution. The respective parental contributions to this genome were characterized using existing variations in GC content. The genomic changes that occurred during the short period since hybrid formation were identified (e.g., loss of heterozygosity, unilateral loss of rDNA, reciprocal exchange) and distinguished from those undergone by the two parental genomes after separation from their common ancestor (i.e., NUMT (NUclear sequences of MiTochondrial origin) insertions, gene acquisitions, gene location movements, reciprocal translocation). We found that the physiological characteristics of this new yeast species are determined by specific but unequal contributions of its two parents, one of which could be identified as very closely related to an extant Pichia farinosa strain.

AB - Polyploidization is an important process in the evolution of eukaryotic genomes, but ensuing molecular mechanisms remain to be clarified. Autopolyploidization or whole-genome duplication events frequently are resolved in resulting lineages by the loss of single genes from most duplicated pairs, causing transient gene dosage imbalance and accelerating speciation through meiotic infertility. Allopolyploidization or formation of interspecies hybrids raises the problem of genetic incompatibility (Bateson-Dobzhansky-Muller effect) andmay be resolved by the accumulation of mutational changes in resulting lineages. In this article, we show that an osmotolerant yeast species, Pichia sorbitophila, recently isolated in a concentrated sorbitol solution in industry, illustrates this last situation. Its genome is amosaic of homologous and homeologous chromosomes, or parts thereof, that corresponds to a recently formed hybrid in the process of evolution. The respective parental contributions to this genome were characterized using existing variations in GC content. The genomic changes that occurred during the short period since hybrid formation were identified (e.g., loss of heterozygosity, unilateral loss of rDNA, reciprocal exchange) and distinguished from those undergone by the two parental genomes after separation from their common ancestor (i.e., NUMT (NUclear sequences of MiTochondrial origin) insertions, gene acquisitions, gene location movements, reciprocal translocation). We found that the physiological characteristics of this new yeast species are determined by specific but unequal contributions of its two parents, one of which could be identified as very closely related to an extant Pichia farinosa strain.

KW - Allopolyploidy

KW - Genome evolution

KW - Hybridization

KW - Loss of heterozygosity

KW - Osmotolerant Yeast P. sorbitophila

UR - http://www.scopus.com/inward/record.url?scp=84860499250&partnerID=8YFLogxK

U2 - 10.1534/g3.111.000745

DO - 10.1534/g3.111.000745

M3 - Article

AN - SCOPUS:84860499250

SN - 2160-1836

VL - 2

SP - 299

EP - 311

JO - G3: Genes, Genomes, Genetics

JF - G3: Genes, Genomes, Genetics

IS - 2

ER -

Pichia sorbitophila, an Interspecies Yeast Hybrid, Reveals Early Steps of Genome Resolution After Polyploidization

Abstract

Keywords

Access to Document

Fingerprint

Cite this