Table S2. All pairwise trait associations. The âDirectionâ column indicates whether a trait association was classified as a positive, negative, or random association. The expected value is the average value from the randomized data (n = 10,000). (XLSX 75 kb
Table S4. Species isolation environment matrix. A value of 1 means the species was isolated from tha...
Figure S2. Clustering of Norm of reaction for each trait. Norm of reaction of each individual is sho...
Figure S2. Bar graph of number of species found in each isolation environment. (PDF 185 kb
Table S5. Pairwise association quantifications among traits and isolation environments. The âDirec...
Table S6. Number of positive, negative, and random associations among carbon utilization traits. (XL...
Table S9. Χ2 associations between gene presence and carbon traits. The “Same” column represents the ...
Table S10. Species trait matrix, scored with growth (+), no growth (â), variable (v), or data unav...
Figure S1. Hierarchical cluster analysis of traits, using similarities among trait associations. The...
Table S7. Assigned functional categories used statistically to analyze the similarities between carb...
Table S12. Proportion of correctly predicted traits across each method implemented to handle missing...
Table S1. Growth validation of 240 yeasts on four carbon sources. Growth on a carbon source was scor...
Figure S3. Genes show pleiotropic functions for carbon utilization. We determined gene presence for ...
Table S3. Over 50% of individual traits do not evolve under a Brownian model of evolution. To test f...
Table S8. Gene and trait presence for 79 species with curated genome sequences [55]. Gene presence w...
Figure S6. Distribution of genetic interactions. (A) Empirical cumulative distribution of the number...
Table S4. Species isolation environment matrix. A value of 1 means the species was isolated from tha...
Figure S2. Clustering of Norm of reaction for each trait. Norm of reaction of each individual is sho...
Figure S2. Bar graph of number of species found in each isolation environment. (PDF 185 kb
Table S5. Pairwise association quantifications among traits and isolation environments. The âDirec...
Table S6. Number of positive, negative, and random associations among carbon utilization traits. (XL...
Table S9. Χ2 associations between gene presence and carbon traits. The “Same” column represents the ...
Table S10. Species trait matrix, scored with growth (+), no growth (â), variable (v), or data unav...
Figure S1. Hierarchical cluster analysis of traits, using similarities among trait associations. The...
Table S7. Assigned functional categories used statistically to analyze the similarities between carb...
Table S12. Proportion of correctly predicted traits across each method implemented to handle missing...
Table S1. Growth validation of 240 yeasts on four carbon sources. Growth on a carbon source was scor...
Figure S3. Genes show pleiotropic functions for carbon utilization. We determined gene presence for ...
Table S3. Over 50% of individual traits do not evolve under a Brownian model of evolution. To test f...
Table S8. Gene and trait presence for 79 species with curated genome sequences [55]. Gene presence w...
Figure S6. Distribution of genetic interactions. (A) Empirical cumulative distribution of the number...
Table S4. Species isolation environment matrix. A value of 1 means the species was isolated from tha...
Figure S2. Clustering of Norm of reaction for each trait. Norm of reaction of each individual is sho...
Figure S2. Bar graph of number of species found in each isolation environment. (PDF 185 kb