Al162,Figure 1. NAMPT and PNC homologues are co-expressed in invertebrates. RT-PCR analysis shows that NAMPT and PNC are simultaneously expressed in Branchiostoma floridae, Strongylocentrotus ML 264 purpuratus, Capitella teleta and Nematostella vectensis. doi:10.1371/journal.pone.0064674.gEvolution of NAMPT and NicotinamidaseFigure 2. Evolutionary divergence between NAMPT and PNC homologues. The estimates of evolutionary divergence were calculated as amino acid substitutions per site between NAMPT (green) and PNC (orange) sequences for several species. Hs, Homo sapiens; Mm, Mus musculus; Dr, Danio rerio; Bf, Branchiostoma floridae; Ci, Ciona intestinalis; Sp, Strongylocentrotus purpuratus; Ct, Capitella teleta; Hr, Helobdella robusta; Lg, Lottia gigantea; Dm, Drosophila melanogaster; Ce, Caenorhabditis elegans; Nv, Nematostella vectensis; Ta, Trichoplax adhaerens; Sc, Saccharomyces cerevisiae; Mb, Monosiga brevicollis. doi:10.1371/journal.pone.0064674.gAla163, Tyr166 and Thr171, and most of them are conserved in all invertebrate PNC sequences as well (Figure 3B and Figure S3).Genetic architecture conservation of NAMPT homologuesGiven the degree of conservation of both proteins, and taking into account the divergence times of over 1000 million years between the species considered here, we have investigated the conservation at the gene structure and genome organization levels. NAMPT retained microsynteny in chordates, as indicated by the conserved gene order between H. sapiens, M. musculus, D. rerio and B. floridae, and also showed macrosynteny conservation 18204824 in some lineages, namely between Trichoplax adhaerens and either H. sapiens, N. vectensis or M. brevicollis (Figure 4 and Figures S4, S5). For PNC homologues, no syntenic regions were found. Although recent studies point to a higher level of microsynteny conservation in metazoans than previously estimated [43], these evidences are challenging in some lineages due to poor genome annotation and breakdown in small scaffolds. At the level of exon-intron structure, NAMPT is more homogeneous than PNC, considering the number and size of exons, and total gene length (Figures S6, S7). The exception is observed in N. vectensis, where NAMPT has many small exons spanning 14 Kb in the genome, while PNC has only two exons in less than 2 Kb. Using the information on conserved Itacitinib biological activity motifs and gene structure, we were able to successfully identify NAMPT and PNC homologues as well as predict the corresponding gene structures in the hemichordate S. kowaleskii, a phylogenetic informative species (Figure S8).increase in complexity of the enzyme that is active as a monomer in P. horikoshii [38], dimer in A. baumanii [40] and heptamer in S. cerevisiae [39]. Thus, we have aligned PNC sequences based on secondary structure predictions and determined that invertebrate PNCs also show structural conservation (Figure 6). The regions corresponding to alpha-helices (red) and beta-sheets (yellow) are conserved at the structural level, even if the amino acids are not (Figure 6A). For instance, the alpha-helices of regions I, II and III comprise different amino acids while displaying a similar fold. To illustrate this, region II is shown in detail for P. horikoshii, A. baumanii and S. cerevisiae (Figure 6B).Modeling and docking analyses of invertebrate NAMPTs and PNCsTo gain 1676428 insight into the structures of invertebrate NAMPTs and PNCs, we have performed homology modeling and protein-ligand docking. To overcome limitations in the int.Al162,Figure 1. NAMPT and PNC homologues are co-expressed in invertebrates. RT-PCR analysis shows that NAMPT and PNC are simultaneously expressed in Branchiostoma floridae, Strongylocentrotus purpuratus, Capitella teleta and Nematostella vectensis. doi:10.1371/journal.pone.0064674.gEvolution of NAMPT and NicotinamidaseFigure 2. Evolutionary divergence between NAMPT and PNC homologues. The estimates of evolutionary divergence were calculated as amino acid substitutions per site between NAMPT (green) and PNC (orange) sequences for several species. Hs, Homo sapiens; Mm, Mus musculus; Dr, Danio rerio; Bf, Branchiostoma floridae; Ci, Ciona intestinalis; Sp, Strongylocentrotus purpuratus; Ct, Capitella teleta; Hr, Helobdella robusta; Lg, Lottia gigantea; Dm, Drosophila melanogaster; Ce, Caenorhabditis elegans; Nv, Nematostella vectensis; Ta, Trichoplax adhaerens; Sc, Saccharomyces cerevisiae; Mb, Monosiga brevicollis. doi:10.1371/journal.pone.0064674.gAla163, Tyr166 and Thr171, and most of them are conserved in all invertebrate PNC sequences as well (Figure 3B and Figure S3).Genetic architecture conservation of NAMPT homologuesGiven the degree of conservation of both proteins, and taking into account the divergence times of over 1000 million years between the species considered here, we have investigated the conservation at the gene structure and genome organization levels. NAMPT retained microsynteny in chordates, as indicated by the conserved gene order between H. sapiens, M. musculus, D. rerio and B. floridae, and also showed macrosynteny conservation 18204824 in some lineages, namely between Trichoplax adhaerens and either H. sapiens, N. vectensis or M. brevicollis (Figure 4 and Figures S4, S5). For PNC homologues, no syntenic regions were found. Although recent studies point to a higher level of microsynteny conservation in metazoans than previously estimated [43], these evidences are challenging in some lineages due to poor genome annotation and breakdown in small scaffolds. At the level of exon-intron structure, NAMPT is more homogeneous than PNC, considering the number and size of exons, and total gene length (Figures S6, S7). The exception is observed in N. vectensis, where NAMPT has many small exons spanning 14 Kb in the genome, while PNC has only two exons in less than 2 Kb. Using the information on conserved motifs and gene structure, we were able to successfully identify NAMPT and PNC homologues as well as predict the corresponding gene structures in the hemichordate S. kowaleskii, a phylogenetic informative species (Figure S8).increase in complexity of the enzyme that is active as a monomer in P. horikoshii [38], dimer in A. baumanii [40] and heptamer in S. cerevisiae [39]. Thus, we have aligned PNC sequences based on secondary structure predictions and determined that invertebrate PNCs also show structural conservation (Figure 6). The regions corresponding to alpha-helices (red) and beta-sheets (yellow) are conserved at the structural level, even if the amino acids are not (Figure 6A). For instance, the alpha-helices of regions I, II and III comprise different amino acids while displaying a similar fold. To illustrate this, region II is shown in detail for P. horikoshii, A. baumanii and S. cerevisiae (Figure 6B).Modeling and docking analyses of invertebrate NAMPTs and PNCsTo gain 1676428 insight into the structures of invertebrate NAMPTs and PNCs, we have performed homology modeling and protein-ligand docking. To overcome limitations in the int.