Comparative genomics of protoploid Saccharomycetaceae.

نویسندگان

Jean-Luc Souciet

Bernard Dujon

Claude Gaillardin

Mark Johnston

Philippe V Baret

Paul Cliften

David J Sherman

Jean Weissenbach

Eric Westhof

Patrick Wincker

Claire Jubin

Julie Poulain

Valérie Barbe

Béatrice Ségurens

François Artiguenave

Véronique Anthouard

Benoit Vacherie

Marie-Eve Val

Robert S Fulton

Patrick Minx

Richard Wilson

Pascal Durrens

Géraldine Jean

Christian Marck

Tiphaine Martin

Macha Nikolski

Thomas Rolland

Marie-Line Seret

Serge Casarégola

Laurence Despons

Cécile Fairhead

Gilles Fischer

Ingrid Lafontaine

Véronique Leh

Marc Lemaire

Jacky de Montigny

Cécile Neuvéglise

Agnès Thierry

Isabelle Blanc-Lenfle

Claudine Bleykasten

Julie Diffels

Emilie Fritsch

Lionel Frangeul

Adrien Goëffon

Nicolas Jauniaux

Rym Kachouri-Lafond

Célia Payen

Serge Potier

Lenka Pribylova

Christophe Ozanne

Guy-Franck Richard

Christine Sacerdot

Marie-Laure Straub

Emmanuel Talla

چکیده

Our knowledge of yeast genomes remains largely dominated by the extensive studies on Saccharomyces cerevisiae and the consequences of its ancestral duplication, leaving the evolution of the entire class of hemiascomycetes only partly explored. We concentrate here on five species of Saccharomycetaceae, a large subdivision of hemiascomycetes, that we call "protoploid" because they diverged from the S. cerevisiae lineage prior to its genome duplication. We determined the complete genome sequences of three of these species: Kluyveromyces (Lachancea) thermotolerans and Saccharomyces (Lachancea) kluyveri (two members of the newly described Lachancea clade), and Zygosaccharomyces rouxii. We included in our comparisons the previously available sequences of Kluyveromyces lactis and Ashbya (Eremothecium) gossypii. Despite their broad evolutionary range and significant individual variations in each lineage, the five protoploid Saccharomycetaceae share a core repertoire of approximately 3300 protein families and a high degree of conserved synteny. Synteny blocks were used to define gene orthology and to infer ancestors. Far from representing minimal genomes without redundancy, the five protoploid yeasts contain numerous copies of paralogous genes, either dispersed or in tandem arrays, that, altogether, constitute a third of each genome. Ancient, conserved paralogs as well as novel, lineage-specific paralogs were identified.

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Comparative genomics of protoploid Saccharomycetaceae

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