Distinct genomic signatures of adaptation in pre- and postnatal environments during human evolution

Uddin et al. 10.1073/pnas.0712400105.

Supporting Information

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SI Results
List of SI Tables
SI Table 3
SI Table 4
SI Table 5
SI Table 6
SI Table 7
SI Table 8
SI Table 9
SI Table 10
SI Table 11
SI Table 12
SI Table 13
SI Table 14
SI Table 15
SI Table 16
SI Table 17
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SI Table 19
SI Table 20
SI Table 21
SI Table 22
SI Table 23
SI Table 24
SI Table 25
SI Table 26
SI Table 27
SI Table 28
SI Table 29
SI Table 30
SI Table 31

List of SI Tables

Table 3. Functional Annotation Clusters Determined from the Full HAS List.

Table 4. Functional Annotation Clusters Determined from HAS Genes Showing Adaptive Change on the Human Terminal Branch.

Table 5. Functional Annotation Clusters Determined from HAS Genes Showing Adaptive Change on the Ape Stem.

Table 6. Functional Annotation Clusters Determined from HAS Genes Showing Adaptive Change on the Primate Stem.

Table 7. Shared annotations and (shared genes) in top 3 FACs between periods of descent.

Table 8. Functional Annotation Clustering of Highly Expressed Genes in Adult Uterus.

Table 9. Functional Annotation Clustering of HAS Highly Expressed Genes in Adult Uterus.

SI Table 10. Functional Annotation Clustering of Highly Expressed Genes in Placenta.

Table 11. Functional Annotation Clustering of HAS Highly Expressed Genes in Placenta.

Table 12. Functional Annotation Clusters of Highly Expressed Genes in Adult Whole Brain.

Table 13. Funcational Annotation Clustering of HAS Highly Expressed Genes in Adult Whole Brain.

Table 14. Functional Annotation Clustering of Highly Expressed Genes in Fetal Brain.

Table 15. Functional Annotation Clustering of HAS Highly Expressed Genes in Fetal Brain.

Table 16. Functional Annotation Clustering of Highly Expressed Genes in Adult Liver.

Table 17. Functional Annotation Clustering of HAS Highly Expressed Genes in Adult Liver.

Table 18. Functional Annotation Clustering of Highly Expressed Genes in Fetal Liver.

Table 19. Functional Annotation Clustering of HAS Highly Expressed Genes in Fetal Liver.

Table 20. Functional Annotation Clustering of Highly Expressed Genes in Adult Lung.

Table 21. Functional Annotation Clustering of HAS Highly Expressed Genes in Adult Lung.

Table 22. Functional Annotation Clustering of Highly Expressed Genes in Fetal Lung.

Table 23. Functional Annotation Clustering of HAS Highly Expressed Genes in Fetal Lung.

Table 24. Functional Annotation Clustering of Highly Expressed Genes in Adult Thyroid.

Table 25. Functional Annotation Clustering of HAS Highly Expressed Genes in Adult Thyroid.

Table 26. Functional Annotation Clustering of Highly Expressed Genes in Fetal Thyroid.

Table 27. Functional Annotation Clustering of HAS Highly Expressed Genes in Fetal Thyroid.

Table 28. Functional Annotation Clustering of Highly Expressed Genes in Adult Heart.

Table 29. Functional Annotation Clustering of HAS Highly Expressed Genes in Adult Heart.

Table 30. Summary Data of Analysed RefSeqs.

Table 31. Disease-based Functional Annotation Clustering of HAS Genes.

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