Reconstructing the Backbone of the Saccharomycotina Yeast Phylogeny Using Genome-Scale Data

Reconstructing the Backbone of the Saccharomycotina Yeast Phylogeny Using Genome-Scale Data

Understanding the phylogenetic relationships among the yeasts of the subphylum Saccharomycotina is a prerequisite for understanding the evolution of their metabolisms and ecological lifestyles. In the last two decades, the use of rDNA and multilocus data sets has greatly advanced our understanding o...

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Published in:G3 : genes - genomes - genetics Vol. 6; no. 12; pp. 3927 - 3939
Main Authors: Shen, Xing-Xing, Zhou, Xiaofan, Kominek, Jacek, Kurtzman, Cletus P, Hittinger, Chris Todd, Rokas, Antonis
Format: Journal Article
Language:English
Published: England Genetics Society of America 01-12-2016
Oxford University Press
Subjects:
60 APPLIED LIFE SCIENCES
Ascomycota - classification
Ascomycota - genetics
BASIC BIOLOGICAL SCIENCES
Computational Biology - methods
Genetic Markers
genome completeness
Genome, Fungal
Genomics - methods
incongruence
Investigations
maximum likelihood
nuclear markers
phylogenomics
Phylogeny
Workflow
genome completeness
incongruence
nuclear markers
phylogenomics
maximum likelihood
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Summary:Understanding the phylogenetic relationships among the yeasts of the subphylum Saccharomycotina is a prerequisite for understanding the evolution of their metabolisms and ecological lifestyles. In the last two decades, the use of rDNA and multilocus data sets has greatly advanced our understanding of the yeast phylogeny, but many deep relationships remain unsupported. In contrast, phylogenomic analyses have involved relatively few taxa and lineages that were often selected with limited considerations for covering the breadth of yeast biodiversity. Here we used genome sequence data from 86 publicly available yeast genomes representing nine of the 11 known major lineages and 10 nonyeast fungal outgroups to generate a 1233-gene, 96-taxon data matrix. Species phylogenies reconstructed using two different methods (concatenation and coalescence) and two data matrices (amino acids or the first two codon positions) yielded identical and highly supported relationships between the nine major lineages. Aside from the lineage comprised by the family Pichiaceae, all other lineages were monophyletic. Most interrelationships among yeast species were robust across the two methods and data matrices. However, eight of the 93 internodes conflicted between analyses or data sets, including the placements of: the clade defined by species that have reassigned the CUG codon to encode serine, instead of leucine; the clade defined by a whole genome duplication; and the species Ascoidea rubescens These phylogenomic analyses provide a robust roadmap for future comparative work across the yeast subphylum in the disciplines of taxonomy, molecular genetics, evolutionary biology, ecology, and biotechnology. To further this end, we have also provided a BLAST server to query the 86 Saccharomycotina genomes, which can be found at http://y1000plus.org/blast.
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content type line 23
USDOE Office of Science (SC), Biological and Environmental Research (BER)
FC02-07ER64494
ISSN:2160-1836
2160-1836
DOI:10.1534/g3.116.034744