110 research outputs found
Early Evolution of Ionotropic GABA Receptors and Selective Regimes Acting on the Mammalian-Specific Theta and Epsilon Subunits
BACKGROUND: The amino acid neurotransmitter GABA is abundant in the central nervous system (CNS) of both invertebrates and vertebrates. Receptors of this neurotransmitter play a key role in important processes such as learning and memory. Yet, little is known about the mode and tempo of evolution of the receptors of this neurotransmitter. Here, we investigate the phylogenetic relationships of GABA receptor subunits across the chordates and detail their mode of evolution among mammals. PRINCIPAL FINDINGS: Our analyses support two major monophyletic clades: one clade containing GABA(A) receptor alpha, gamma, and epsilon subunits, and another one containing GABA(A) receptor rho, beta, delta, theta, and pi subunits. The presence of GABA receptor subunits from each of the major clades in the Ciona intestinalis genome suggests that these ancestral duplication events occurred before the divergence of urochordates. However, while gene divergence proceeded at similar rates on most receptor subunits, we show that the mammalian-specific subunits theta and epsilon experienced an episode of positive selection and of relaxed constraints, respectively, after the duplication event. Sites putatively under positive selection are placed on a three-dimensional model obtained by homology-modeling. CONCLUSIONS: Our results suggest an early divergence of the GABA receptor subunits, before the split from urochordates. We show that functional changes occurred in the lineages leading to the mammalian-specific subunit theta, and we identify the amino acid sites putatively responsible for the functional divergence. We discuss potential consequences for the evolution of mammals and of their CNS
The cys-loop ligand-gated ion channel gene superfamily of the nematode, Caenorhabditis elegans
The nematode, Caenorhabditis elegans, possesses the most extensive known superfamily of cys-loop ligand-gated ion channels (cys-loop LGICs) consisting of 102 subunit-encoding genes. Less than half of these genes have been functionally characterised which include cation-permeable channels gated by acetylcholine (ACh) and γ-aminobutyric acid (GABA) as well as anion-selective channels gated by ACh, GABA, glutamate and serotonin. Following the guidelines set for genetic nomenclature for C. elegans, we have designated unnamed subunits as lgc genes (ligand-gated ion channels of the cys-loop superfamily). Phylogenetic analysis shows that several of these lgc subunits form distinct groups which may represent novel cys-loop LGIC subtypes
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Invertebrate GABA and glutamate receptors - molecular biology reveals predictable structures but some unusual pharmacologies
Determination of the sequences of invertebrate γ-aminobutyric acid (GABA)-gated and glutamate-gated receptor/ion channels, through the application of recombinant {DNA} methods, is not just an academic exercise to effect evolutionary comparisons with the sequences of the corresponding vertebrate receptors. The isolation of {DNA} clones would provide the tools to investigate the exact locations and functional properties of these neurotransmitter receptors within simple nervous systems. In addition, since {GABA} receptors, at least, have been suggested to be the targets of certain pesticides, the availability of invertebrate receptor cDNAs might provide the agrochemical industry with the basis for ‘high-throughput’ screening methods for novel pesticidal compounds. Recently, the isolation of molluscan and Drosophila {GABA} receptor and glutamate receptor cDNAs, and the pharmacological properties of a {GABA} receptor expressed from one of these clones, have been reported. These studies should stimulate further research into the electrophysiology and pharmacology of native invertebrate ion channel proteins
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Nucleotide sequence encoding the iron sulfur protein subunit of the succinate dehydrogenase of Escherichia coli
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In situ hybridization localization of the GABA(A) receptor beta2S- and beta2L-subunit transcripts reveals cell-specific splicing of alternate cassette exons
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