Comparative genomics of biotechnologically important yeasts

Robert Riley; Sajeet Haridas; Kenneth H. Wolfe; Mariana Lopes; Chris Todd Hittinger; Markus Göker; Asaf Salamov; Jennifer H. Wisecaver; Tanya M. Long; Christopher H. Calvey; Andrea Aerts; Kerrie Barry; Cindy Choi; Alicia Clum; Aisling Y. Coughlan; Shweta Deshpande; Alexander Douglass; Sara J. Hanson; Hans‐Peter Klenk; Kurt LaButti; Alla Lapidus; Erika Lindquist; Anna Lipzen; Jan P. Meier‐Kolthoff; Robin A. Ohm; Robert Otillar; Jasmyn Pangilinan; Peng Yi; Antonis Rokas; Carlos A. Rosa; Carmen Scheuner; Andriy А. Sibirny; Jason C. Slot; J. Benjamin Stielow; Hui Sun; Cletus P. Kurtzman; Meredith Blackwell; Igor V. Grigoriev; Thomas W. Jeffries

doi:10.1073/pnas.1603941113

Comparative genomics of biotechnologically important yeasts

Robert Riley(Joint Genome Institute), Sajeet Haridas(Joint Genome Institute), Kenneth H. Wolfe(University College Dublin), Mariana Lopes(Universidade Federal de Minas Gerais), Chris Todd Hittinger(University of Wisconsin–Madison), Markus Göker(Leibniz Institute DSMZ – German Collection of Microorganisms and Cell Cultures), Asaf Salamov(Joint Genome Institute), Jennifer H. Wisecaver(Vanderbilt University), Tanya M. Long(University of Wisconsin–Madison), Christopher H. Calvey, Andrea Aerts(Joint Genome Institute), Kerrie Barry(Joint Genome Institute), Cindy Choi(Joint Genome Institute), Alicia Clum(Joint Genome Institute), Aisling Y. Coughlan(University College Dublin), Shweta Deshpande(Joint Genome Institute), Alexander Douglass(University College Dublin), Sara J. Hanson(University College Dublin), Hans‐Peter Klenk(Leibniz Institute DSMZ – German Collection of Microorganisms and Cell Cultures), Kurt LaButti(Joint Genome Institute), Alla Lapidus(Joint Genome Institute), Erika Lindquist(Joint Genome Institute), Anna Lipzen(Joint Genome Institute), Jan P. Meier‐Kolthoff(Leibniz Institute DSMZ – German Collection of Microorganisms and Cell Cultures), Robin A. Ohm(Joint Genome Institute), Robert Otillar(Joint Genome Institute), Jasmyn Pangilinan(Joint Genome Institute), Peng Yi(Joint Genome Institute), Antonis Rokas(Vanderbilt University), Carlos A. Rosa(Universidade Federal de Minas Gerais), Carmen Scheuner(Leibniz Institute DSMZ – German Collection of Microorganisms and Cell Cultures), Andriy А. Sibirny(National Academy of Sciences of Ukraine), Jason C. Slot(The Ohio State University), J. Benjamin Stielow(Royal Netherlands Academy of Arts and Sciences), Hui Sun(Joint Genome Institute), Cletus P. Kurtzman(Agricultural Research Service), Meredith Blackwell(Louisiana State University), Igor V. Grigoriev(Joint Genome Institute), Thomas W. Jeffries(University of Wisconsin–Madison)

Proceedings of the National Academy of Sciences

August 17, 2016

10.1073/pnas.1603941113

Cited by 396Open Access

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Abstract

Ascomycete yeasts are metabolically diverse, with great potential for biotechnology. Here, we report the comparative genome analysis of 29 taxonomically and biotechnologically important yeasts, including 16 newly sequenced. We identify a genetic code change, CUG-Ala, in Pachysolen tannophilus in the clade sister to the known CUG-Ser clade. Our well-resolved yeast phylogeny shows that some traits, such as methylotrophy, are restricted to single clades, whereas others, such as l-rhamnose utilization, have patchy phylogenetic distributions. Gene clusters, with variable organization and distribution, encode many pathways of interest. Genomics can predict some biochemical traits precisely, but the genomic basis of others, such as xylose utilization, remains unresolved. Our data also provide insight into early evolution of ascomycetes. We document the loss of H3K9me2/3 heterochromatin, the origin of ascomycete mating-type switching, and panascomycete synteny at the MAT locus. These data and analyses will facilitate the engineering of efficient biosynthetic and degradative pathways and gateways for genomic manipulation.

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