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Molecular evolution of peptidergic signaling systems in bilaterians
Molecular evolution of peptidergic signaling systems in bilaterians
by Jean-Stéphane Joly , Olivier Mirabeau
in Animalia / Animals / arthropods / Baits / Base Sequence / Bayes Theorem / Biological Sciences / coevolution / Evolution, Molecular / G-protein coupled receptors / Gene Components / genes / Genomes / Hormones / Humans / Invertebrates / Invertebrates - genetics / Life Sciences / ligands / Likelihood Functions / Models, Genetic / Molecular Sequence Data / Neurons / Neurons and Cognition / Neuropeptides / Neuropeptides - genetics / nucleotide sequences / peptide hormones / Peptides / Phylogenetics / Phylogeny / PNAS Plus / Proteins / Receptors, G-Protein-Coupled / Receptors, G-Protein-Coupled - genetics / Receptors, Gastrointestinal Hormone / Receptors, Gastrointestinal Hormone - genetics / Rhodopsin / Rhodopsin - genetics / screening / Sequence Analysis, DNA / Species Specificity / Vertebrates / Vertebrates - genetics
2013
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Molecular evolution of peptidergic signaling systems in bilaterians
by Jean-Stéphane Joly , Olivier Mirabeau
in Animalia / Animals / arthropods / Baits / Base Sequence / Bayes Theorem / Biological Sciences / coevolution / Evolution, Molecular / G-protein coupled receptors / Gene Components / genes / Genomes / Hormones / Humans / Invertebrates / Invertebrates - genetics / Life Sciences / ligands / Likelihood Functions / Models, Genetic / Molecular Sequence Data / Neurons / Neurons and Cognition / Neuropeptides / Neuropeptides - genetics / nucleotide sequences / peptide hormones / Peptides / Phylogenetics / Phylogeny / PNAS Plus / Proteins / Receptors, G-Protein-Coupled / Receptors, G-Protein-Coupled - genetics / Receptors, Gastrointestinal Hormone / Receptors, Gastrointestinal Hormone - genetics / Rhodopsin / Rhodopsin - genetics / screening / Sequence Analysis, DNA / Species Specificity / Vertebrates / Vertebrates - genetics
2013
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Molecular evolution of peptidergic signaling systems in bilaterians
Molecular evolution of peptidergic signaling systems in bilaterians
by Jean-Stéphane Joly , Olivier Mirabeau
in Animalia / Animals / arthropods / Baits / Base Sequence / Bayes Theorem / Biological Sciences / coevolution / Evolution, Molecular / G-protein coupled receptors / Gene Components / genes / Genomes / Hormones / Humans / Invertebrates / Invertebrates - genetics / Life Sciences / ligands / Likelihood Functions / Models, Genetic / Molecular Sequence Data / Neurons / Neurons and Cognition / Neuropeptides / Neuropeptides - genetics / nucleotide sequences / peptide hormones / Peptides / Phylogenetics / Phylogeny / PNAS Plus / Proteins / Receptors, G-Protein-Coupled / Receptors, G-Protein-Coupled - genetics / Receptors, Gastrointestinal Hormone / Receptors, Gastrointestinal Hormone - genetics / Rhodopsin / Rhodopsin - genetics / screening / Sequence Analysis, DNA / Species Specificity / Vertebrates / Vertebrates - genetics
2013

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Molecular evolution of peptidergic signaling systems in bilaterians
Molecular evolution of peptidergic signaling systems in bilaterians
Journal Article

Molecular evolution of peptidergic signaling systems in bilaterians

Jean-Stéphane Joly,
Olivier Mirabeau
2013
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Overview
Peptide hormones and their receptors are widespread in metazoans, but the knowledge we have of their evolutionary relationships remains unclear. Recently, accumulating genome sequences from many different species have offered the opportunity to reassess the relationships between protostomian and deuterostomian peptidergic systems (PSs). Here we used sequences of all human rhodopsin and secretin-type G protein-coupled receptors as bait to retrieve potential homologs in the genomes of 15 bilaterian species, including nonchordate deuterostomian and lophotrochozoan species. Our phylogenetic analysis of these receptors revealed 29 well-supported subtrees containing mixed sets of protostomian and deuterostomian sequences. This indicated that many vertebrate and arthropod PSs that were previously thought to be phyla specific are in fact of bilaterian origin. By screening sequence databases for potential peptides, we then reconstructed entire bilaterian peptide families and showed that protostomian and deuterostomian peptides that are ligands of orthologous receptors displayed some similarity at the level of their primary sequence, suggesting an ancient coevolution between peptide and receptor genes. In addition to shedding light on the function of human G protein-coupled receptor PSs, this work presents orthology markers to study ancestral neuron types that were probably present in the last common bilaterian ancestor.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Animalia

/ Animals

/ arthropods

/ Baits

/ Base Sequence

/ Bayes Theorem

/ Biological Sciences

/ coevolution

/ Evolution, Molecular

/ G-protein coupled receptors

/ Gene Components

/ genes

/ Genomes

/ Hormones

/ Humans

/ Invertebrates

/ Invertebrates - genetics

/ Life Sciences

/ ligands

/ Likelihood Functions

/ Models, Genetic

/ Molecular Sequence Data

/ Neurons

/ Neurons and Cognition

/ Neuropeptides

/ Neuropeptides - genetics

/ nucleotide sequences

/ peptide hormones

/ Peptides

/ Phylogenetics

/ Phylogeny

/ PNAS Plus

/ Proteins

/ Receptors, G-Protein-Coupled

/ Receptors, G-Protein-Coupled - genetics

/ Receptors, Gastrointestinal Hormone

/ Receptors, Gastrointestinal Hormone - genetics

/ Rhodopsin

/ Rhodopsin - genetics

/ screening

/ Sequence Analysis, DNA

/ Species Specificity

/ Vertebrates

/ Vertebrates - genetics

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