At 4 out of 7 residues are located in the region +/21 of 36 crucial residues is 0.012, according to Fisher exact test. ThisOrigin and Evolution of Vertebrate Visual CycleFigure 1. Maximum likelihood phylogenetic tree of the RPE65/BCMO superfamily (the WAG substitution model, the complete deletion option, the uniform rate of substitutions option as implemented in the MEGA5 program). The numbers for the interior branches refer to the bootstrap values with 1,000 pseudoreplicates. Ciona_s stands for Ciona savignyi. doi:10.1371/journal.pone.0049975.gresult suggests that the majority of the predicted functionally diverged residues are responsible for the fine-tuning/adaptation of catalytic residues to the newly acquired function of an ancestral RPE65 enzyme. Analysis of the sequences annotated as the Ciona RPE65 homolog and the Ciona BCMO1 homolog (from genomes of Ciona savignyi and Ciona intestinalis) demonstrated the presence of only 1 out of 7 critical residues for RPE65 protein, similar to many deuterostome carotenoid oxygenases. The lamprey RPE65 sequence, on the other hand, contained all 7 conserved residues out of 7 predicted by DIVERGE2, while none of the carotenoid Pentagastrin biological activity oxygenases of studied invertebrates or non-vertebrate chordates had more than 4 out of 7 critical residues. Albalat [18] chose 13 residues deemed functionally important based on the pathogenicity of mutations in these positions and MedChemExpress 76932-56-4 conservation among RPE65 orthologs. He found that invertebrate and non-vertebrate chordate members of the RPE65/BCMO superfamily did not 1313429 show conservation of these functionally important residues [18]. We found that Lamprey RPE65 had 11 out of these 13 residues with two changes in less conserved residues (N321E and T457H). Three of the 7 residues picked up by DIVERGE2 are the closest neighbors of functionally important residues picked by Abalat [18]. Taken together, these observations suggest that the Ciona homologs of carotenoid oxygenases have not diverged 1676428 from preRPE65 members of the carotenoid oxygenase (RPE65/BCMO) superfamily, and thus Ciona does not possess its own RPE65.Origin and Evolution of Vertebrate Visual CycleFigure 2. Production of 11-cis retinol by Lamprey RPE65 in HEK293F cells. A: Normal-phase HPLC of retinol isomers from saponified retinyl esters isolated from HEK293F cells expressing Lamprey RPE65 and bovine LRAT (blue trace). B: Normal-phase HPLC of retinol isomers from saponified retinyl esters isolated from HEK293F cells expressing Lamprey RPE65 with Lamprey LRAT (red trace) or only Lamprey LRAT (green trace). doi:10.1371/journal.pone.0049975.gPhylogenetic Analysis of the LRAT SuperfamilyA maximum likelihood (ML) phylogenetic tree of the N1pC/ P60/LRAT superfamily [32] is shown in the Figure 3. A few homologous sequences (SULT1-ST7, retinoic acid responder 3 and HRAS-like suppressor 3) were included in the LRAT alignment. We did not find any likely orthologs of LRAT in theCiona genome; the closest LRAT homolog was the SULT1-ST7 protein, belonging to a different clade of N1pC/P60/LRAT superfamily (Figure 3). NJ, MP and ME trees are included in Figure S2. The tree topologies of ML, NJ and ME trees are not substantially different. The ML tree is rooted using the Ciona intestinalis and zebrafish SULT1-ST7 sequences (Figure 3). Verte-Origin and Evolution of Vertebrate Visual Cyclebrate LRAT sequences form a clade (the bootstrap value is 30, a weak support; Figure 3) that is separated from the rest of the tree by a relatively l.At 4 out of 7 residues are located in the region +/21 of 36 crucial residues is 0.012, according to Fisher exact test. ThisOrigin and Evolution of Vertebrate Visual CycleFigure 1. Maximum likelihood phylogenetic tree of the RPE65/BCMO superfamily (the WAG substitution model, the complete deletion option, the uniform rate of substitutions option as implemented in the MEGA5 program). The numbers for the interior branches refer to the bootstrap values with 1,000 pseudoreplicates. Ciona_s stands for Ciona savignyi. doi:10.1371/journal.pone.0049975.gresult suggests that the majority of the predicted functionally diverged residues are responsible for the fine-tuning/adaptation of catalytic residues to the newly acquired function of an ancestral RPE65 enzyme. Analysis of the sequences annotated as the Ciona RPE65 homolog and the Ciona BCMO1 homolog (from genomes of Ciona savignyi and Ciona intestinalis) demonstrated the presence of only 1 out of 7 critical residues for RPE65 protein, similar to many deuterostome carotenoid oxygenases. The lamprey RPE65 sequence, on the other hand, contained all 7 conserved residues out of 7 predicted by DIVERGE2, while none of the carotenoid oxygenases of studied invertebrates or non-vertebrate chordates had more than 4 out of 7 critical residues. Albalat [18] chose 13 residues deemed functionally important based on the pathogenicity of mutations in these positions and conservation among RPE65 orthologs. He found that invertebrate and non-vertebrate chordate members of the RPE65/BCMO superfamily did not 1313429 show conservation of these functionally important residues [18]. We found that Lamprey RPE65 had 11 out of these 13 residues with two changes in less conserved residues (N321E and T457H). Three of the 7 residues picked up by DIVERGE2 are the closest neighbors of functionally important residues picked by Abalat [18]. Taken together, these observations suggest that the Ciona homologs of carotenoid oxygenases have not diverged 1676428 from preRPE65 members of the carotenoid oxygenase (RPE65/BCMO) superfamily, and thus Ciona does not possess its own RPE65.Origin and Evolution of Vertebrate Visual CycleFigure 2. Production of 11-cis retinol by Lamprey RPE65 in HEK293F cells. A: Normal-phase HPLC of retinol isomers from saponified retinyl esters isolated from HEK293F cells expressing Lamprey RPE65 and bovine LRAT (blue trace). B: Normal-phase HPLC of retinol isomers from saponified retinyl esters isolated from HEK293F cells expressing Lamprey RPE65 with Lamprey LRAT (red trace) or only Lamprey LRAT (green trace). doi:10.1371/journal.pone.0049975.gPhylogenetic Analysis of the LRAT SuperfamilyA maximum likelihood (ML) phylogenetic tree of the N1pC/ P60/LRAT superfamily [32] is shown in the Figure 3. A few homologous sequences (SULT1-ST7, retinoic acid responder 3 and HRAS-like suppressor 3) were included in the LRAT alignment. We did not find any likely orthologs of LRAT in theCiona genome; the closest LRAT homolog was the SULT1-ST7 protein, belonging to a different clade of N1pC/P60/LRAT superfamily (Figure 3). NJ, MP and ME trees are included in Figure S2. The tree topologies of ML, NJ and ME trees are not substantially different. The ML tree is rooted using the Ciona intestinalis and zebrafish SULT1-ST7 sequences (Figure 3). Verte-Origin and Evolution of Vertebrate Visual Cyclebrate LRAT sequences form a clade (the bootstrap value is 30, a weak support; Figure 3) that is separated from the rest of the tree by a relatively l.
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