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Fig. 7

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ZDB-FIG-130213-4
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Cañestro et al., 2009 - Consequences of lineage-specific gene loss on functional evolution of surviving paralogs: ALDH1A and retinoic acid signaling in vertebrate genomes
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Fig. 7

Evolutionary model reconstructs the history of the Aldh1a genomic neighborhoods from ancestral vertebrate chromosomes.

Circles and numbers near chromosomes label Aldh1a paralogs, and their genomic neighborhoods are color-coded (Aldh1a1: red; Aldh1a2: blue; Aldh1a3: light green; and Aldh1a3-ogm: dark green). Duplication, preservation, losses and translocation of Aldh1 gene paralogs are inferred in ancestral vertebrate chromosomes (e.g. A0-A5 [26]). Step numbers in circles label chromosome rearrangements. Vertical gray bars signify rounds of whole genome duplication events (R1, R2 and R3). Transparent images signify lost genes. In addition to the ancestral status inferred directly from comparative genomic analysis of conserved syntenies (white background; see main text for details), the figure shows two hypotheses (pink and tan boxes) to explain the mechanisms by which the Aldh1a1/2/3/3-ogm gene precursor located in the pre-R1 chromosome “A” generated the genome neighborhoods of Aldh1a2 and Aldh1a3 in chromosome “A4”, and Aldh1a1 and Aldh1a3-ogm in “A0” inferred after R2 (step 1). Under hypothesis 1 (“pre-R1 duplication scenario” in the pink box), a segment from Nakatani et al.′s ancestral chromosome “A” including the original Aldh1a1/2/3/3-ogm gene was tandemly duplicated prior to R1 and gave rise to the Aldh1a1/2 and Aldh1a3/3-ogm genes. Considering the most parsimonious situation, after R1, one of the two homeologs preserved both Aldh1a1/2 and Aldh1a3/3-ogm, and the other homeolog lost both duplicated copies. After R2, the chromosome preserving the Aldh1a genes gave rise to “A4” and “A0”, from which today′s Aldh1a gene family members have evolved. After R2, the chromosome that did not preserve an Aldh1a gene gave rise to “A2–A5” and “A1–A3”, explaining conserved syntenies related to the Aldh1a family observed in today′s Hsa1 and Hsa19 (see Figure 2). An alternative hypothesis to explain the ancestral synteny of Aldh1a genomic neighborhoods inferred in A4 and A0 (hypothesis 2, the “translocation scenario” in the tan box) proposes a translocation event, which may have occurred either before R2 (top half of tan box) or after R2 (bottom half of tan box). In these scenarios, and in contrast to hypothesis 1, a single original gene Aldh1a1/2/3/3-ogm was present in the ancestral chromosome “A”, and after R1, aldh1a1/2 and aldh1a3/3-ogm genes originated in duplicated chromosomes. One possibility (top half in tan box) is that, before R2, a small chromosomal translocation placed Aldh1a1/2 and Aldh1a3/3-ogm on the same chromosome (dotted arrow in tan box). After R2, the chromosome “recipient” of the translocation gave rise to “A4” and “A0”, which contained all Aldh1a ancestral genes from today′s Aldh1a family members, while the chromosome “donor” gave rise to “A2–A5” and “A1–A3”, which lacked any Aldh1a gene but still preserved syntenies for Aldh1a gene neighborhoods. The possibility that the translocation carrying Aldh1a3 to the same chromosome as Aldh1a2 could have occurred after R2 cannot be discarded (dotted arrow bottom half in tan box), and would be consistent with the absence of any Aldh1a paralog in Hsa5 (white box at the bottom on chromosome A0). In this case, however, we would not expect to find paralogs of genes that are tightly linked to ALDH1A2 or ALDH1A1 on Hsa5. We found, however, genes including CCNB1, GCNT4, FAM81B in Hsa5, whose paralogs CNB2, GCNT3 and FAM81A are located near ALDH1A2 in Hsa15, and GCNT1, a third GCNT3 paralog, is close to ALDH1A1 in Hsa9. Further gene translocations, however, could explain the presence of those genes in Hsa5, and therefore a hypothetical translocation after R2 cannot be discarded.

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Phenotype Data

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Acknowledgments
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