A new study identifies an unexpected role for lysophosphatidic acid in modulating the strength of both excitatory and inhibitory synapses in the brain, but by different mechanisms. Read the accompanying Research Article
Lysophosphatidic acid (LPA) is a mitogenic phospholipid produced by certain adivated cells and prese...
In this issue of Chemistry & Biology, Rickman and Davletov suggest a novel mechanism for biological ...
Lysophosphatidic acid (LPA) is not only a simple phos-pholipid constituent of cell membranes but als...
The strength of a synaptic connection—that is, the likelihood that a presynaptic stimulus will lead ...
Signaling through bioactive lipids regulates nervous system development and functions. Lysophosphati...
Synaptic communication is a dynamic process that is key to the regulation of neuronal excitability a...
<div><p>Synaptic communication is a dynamic process that is key to the regulation of neuronal excita...
<p>LPA affects main excitatory and inhibitory synapses by different degrees, loci, and mechanisms of...
Signaling through bioactive lipids regulates nervous system development and functions. Lysophosphati...
The brain is composed of many lipids with varied forms that serve not only as structural components ...
Chemical neurotransmission between neurons is a major point for modulation of neuronal activity. The...
Chemical neurotransmission between neurons is a major point for modulation of neuronal activity. The...
Summary: Membrane lipids and their metabolism have key functions in neurotransmission. Here we provi...
Although originally restricted to their structural role as major constituents of membranes, lipids a...
For neurotransmitter release to occur, proteins and lipids have to work together. The classical view...
Lysophosphatidic acid (LPA) is a mitogenic phospholipid produced by certain adivated cells and prese...
In this issue of Chemistry & Biology, Rickman and Davletov suggest a novel mechanism for biological ...
Lysophosphatidic acid (LPA) is not only a simple phos-pholipid constituent of cell membranes but als...
The strength of a synaptic connection—that is, the likelihood that a presynaptic stimulus will lead ...
Signaling through bioactive lipids regulates nervous system development and functions. Lysophosphati...
Synaptic communication is a dynamic process that is key to the regulation of neuronal excitability a...
<div><p>Synaptic communication is a dynamic process that is key to the regulation of neuronal excita...
<p>LPA affects main excitatory and inhibitory synapses by different degrees, loci, and mechanisms of...
Signaling through bioactive lipids regulates nervous system development and functions. Lysophosphati...
The brain is composed of many lipids with varied forms that serve not only as structural components ...
Chemical neurotransmission between neurons is a major point for modulation of neuronal activity. The...
Chemical neurotransmission between neurons is a major point for modulation of neuronal activity. The...
Summary: Membrane lipids and their metabolism have key functions in neurotransmission. Here we provi...
Although originally restricted to their structural role as major constituents of membranes, lipids a...
For neurotransmitter release to occur, proteins and lipids have to work together. The classical view...
Lysophosphatidic acid (LPA) is a mitogenic phospholipid produced by certain adivated cells and prese...
In this issue of Chemistry & Biology, Rickman and Davletov suggest a novel mechanism for biological ...
Lysophosphatidic acid (LPA) is not only a simple phos-pholipid constituent of cell membranes but als...
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