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Independent HHsearch, Needleman–Wunsch-Based, and Motif Analyses Reveal the Overall Hierarchy for Most of the G Protein-Coupled Receptor Families
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Independent HHsearch, Needleman–Wunsch-Based, and Motif Analyses Reveal the Overall Hierarchy for Most of the G Protein-Coupled Receptor Families
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Journal Article
Independent HHsearch, Needleman–Wunsch-Based, and Motif Analyses Reveal the Overall Hierarchy for Most of the G Protein-Coupled Receptor Families
2011
Overview
Several families of G protein-coupled receptors (GPCRs) show no significant sequence similarities to each other, and it has been debated which of them share a common origin. We developed and performed integrated and independent HHsearch, Needleman–Wunsch-based and motif analyses on more than 6,600 unique GPCRs from 12 species. Moreover, we mined the evolutionary important Trichoplax adhaerens, Nematostella vectensis, Thalassiosira pseudonana, and Strongylocentrotus purpuratus genomes, revealing remarkably rich vertebrate-like GPCR repertoires already in the early Metazoan species. We found strong evidence that the Adhesion and Frizzled families are children to the cyclic AMP (cAMP) family with HHsearch homology probabilities of 99.8% and 99.4%, respectively, also supported by the Needleman–Wunsch analysis and several motifs. We also found that the large Rhodopsin family is likely a child of the cAMP family with an HHsearch homology probability of 99.4% and conserved motifs. Therefore, we suggest that the Adhesion and Frizzled families originated from the cAMP family in an event close to that which gave rise to the Rhodopsin family. We also found convincing evidence that the Rhodopsin family is parent to the important sensory families; Taste 2 and Vomeronasal type 1 as well as the Nematode chemoreceptor families. The insect odorant, gustatory, and Trehalose receptors, frequently referred to as GPCRs, form a separate cluster without relationship to the other families, and we propose, based on these and others' results, that these families are ligand-gated ion channels rather than GPCRs. Overall, we suggest common descent of at least 97% of the GPCRs sequences found in humans.
Publisher
Oxford University Press
Subject
