List of 38 eukaryote genomes and the 382 prokaryotic genomes used in our comparative analysis. (XLSX 277 kb
Detailed origin of prokaryotic S-gene components. Fam: S-gene family, Cpt: component, Cluster: clust...
Figure S5. One example of intron position conservation between one Opimoda (M. brevicollis, gi: 1675...
Annotation of the 573 S-gene families detected in our study. Columns B, C, and D correspond to the E...
Supporting data for this study, consisting of fasta sequences of S-genes, intron position alignments...
Results of phylogenetic analysis of S-gene families and of components of S-genes. (XLSX 78 kb
Figure S8. KEGG map of the glycerophospholipid pathway showing the 6 S-genes (26,775: 1.1.1.8; 19,54...
Figure S14. Functional annotation of the S-genes involved in information storage and processing acco...
Figure S4. Putative phylogeny of eukaryotes, based on He et al. [85], that shows the distribution of...
Figure S7. KEGG map of the spliceosome showing the 15 S-genes in green (4504: Prp19, 3721; U1A/U2Bâ...
Figure S9. Protocol used for the taxonomic assignment of S-gene families. A. For each component of S...
List of the 803 archaeal genomes and the 2078 bacterial genomes we used in our comparative analysis....
Figure S6. Distribution of 573 S-gene families across eukaryotic species. The heatmap represents the...
Figure S10. S-gene family 18,563. A. Component architecture and phylogenetic tree of S-gene family 1...
Figure S2. Two-dimensional density graph of percentage of families detected as composite according t...
Figure S12. S-gene family 9304. A. Component architecture and phylogenetic tree of S-gene family 930...
Detailed origin of prokaryotic S-gene components. Fam: S-gene family, Cpt: component, Cluster: clust...
Figure S5. One example of intron position conservation between one Opimoda (M. brevicollis, gi: 1675...
Annotation of the 573 S-gene families detected in our study. Columns B, C, and D correspond to the E...
Supporting data for this study, consisting of fasta sequences of S-genes, intron position alignments...
Results of phylogenetic analysis of S-gene families and of components of S-genes. (XLSX 78 kb
Figure S8. KEGG map of the glycerophospholipid pathway showing the 6 S-genes (26,775: 1.1.1.8; 19,54...
Figure S14. Functional annotation of the S-genes involved in information storage and processing acco...
Figure S4. Putative phylogeny of eukaryotes, based on He et al. [85], that shows the distribution of...
Figure S7. KEGG map of the spliceosome showing the 15 S-genes in green (4504: Prp19, 3721; U1A/U2Bâ...
Figure S9. Protocol used for the taxonomic assignment of S-gene families. A. For each component of S...
List of the 803 archaeal genomes and the 2078 bacterial genomes we used in our comparative analysis....
Figure S6. Distribution of 573 S-gene families across eukaryotic species. The heatmap represents the...
Figure S10. S-gene family 18,563. A. Component architecture and phylogenetic tree of S-gene family 1...
Figure S2. Two-dimensional density graph of percentage of families detected as composite according t...
Figure S12. S-gene family 9304. A. Component architecture and phylogenetic tree of S-gene family 930...
Detailed origin of prokaryotic S-gene components. Fam: S-gene family, Cpt: component, Cluster: clust...
Figure S5. One example of intron position conservation between one Opimoda (M. brevicollis, gi: 1675...
Annotation of the 573 S-gene families detected in our study. Columns B, C, and D correspond to the E...
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