Postsynaptic Collection

Synapse nerve junctions, SEM
Synapse nerve junctions. Coloured scanning electron micrograph (SEM) of nerve cells showing the synapses (junctions, bulges) between them

Nerve synapse and serotonin molecule
Nerve synapse and serotonin neurotransmitter molecule. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue)

Nerve synapse, artwork C017 / 3427
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Nerve synapse, artwork C017 / 3428
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Nerve synapse, artwork F006 / 7073
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Nerve synapse, artwork F006 / 7074
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Nerve synapse, artwork F006 / 7090
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Acetylcholine receptor molecule F006 / 9569
Acetylcholine receptor. Molecular model showing the structure of a nicotinic acetlycholine receptor. This receptor, for the neurotransmitter acetylcholine

Acetylcholine receptor-conotoxin complex. Molecular model showing alpha-conotoxin bound to a nicotinic acetlycholine receptor

Synapse, artwork C016 / 7535
Synapse. Computer artwork of a synapse, the junction between nerve cells (orange). Synapses transmit electrical signals from one nerve cell to the next

Nerve synapse, artwork C017 / 3426
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Synapses, artwork C014 / 0002
Synapses. Computer artwork of synapses, the junction between nerve cells (orange). Synapses transmit electrical signals from one nerve cell to the next

Synapses, artwork C014 / 0004
Synapses. Computer artwork of synapses, the junction between nerve cells (blue). Synapses transmit electrical signals from one nerve cell to the next

Synapses, artwork C014 / 0003
Synapses. Computer artwork of synapses, the junction between nerve cells (blue). Synapses transmit electrical signals from one nerve cell to the next

Action of a beta blocker drug, artwork
Action of a beta blocker drug on nerve synapses, artwork. Beta blockers are used to treat cardiac arrhythmia (abnormal heartbeats) and hypertension (high blood pressure)

Action of serotonin reuptake inhibitors
Action of selective serotonin reuptake inhibitors (SSRIs) at a chemical synapse, computer artwork. Chemical synapses are the junctions between any two nerves (at right, blue) of the nervous system

Nerve cell synapses, computer artwork
Nerve cell synapses. Computer artwork of the chemical synapses between two nerve cells, or neurons, (one red and one blue)

Nerve synapse, artwork
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Synapse, artwork
Synapse. Computer artwork of a synapse, the junction between nerve cells. Synapses transmit electrical signals from one nerve cell to the next

Nerve cell synapse, computer artwork. Nerve cells, or neurons, are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

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Postsynaptic refers to the region of a synapse, which is a nerve junction where signals are transmitted from one neuron to another. In this intricate network of communication, the postsynaptic side plays a crucial role in receiving and processing these signals. Through scanning electron microscopy (SEM), scientists have been able to capture stunning images that depict the complexity and beauty structures. Artwork C017 / 3427 showcases a nerve synapse, highlighting its intricate connections and interplay between neurons. Similarly, artwork C017 / 3428 offers us another glimpse into the world of synaptic transmission. The vibrant colors and detailed depiction invite us to marvel at the wonders occurring within our own nervous system. Moving on to artwork F006 / 7073, we encounter yet another mesmerizing portrayal of a nerve synapse. The delicate balance between structure and function is evident in every brushstroke, reminding us of the incredible precision required for proper neuronal communication. Continuing our exploration, artwork F006 / 7074 presents an artistic interpretation of a nerve synapse intertwined with serotonin molecules. This captivating image hints at the complex interplay between neurotransmitters and their receptors within the postsynaptic membrane. In contrast, artwork F006 / 7090 focuses on an acetylcholine receptor molecule found in postsynaptic regions. Its elegant design reminds us that even at such microscopic scales, nature's creations can be awe-inspiring. The intricacies deepen as we delve into images depicting acetylcholine receptor-conotoxin complexes – artworks that highlight how certain toxins interact with receptors in postsynaptic membranes. These visuals serve as reminders of both nature's ingenuity and potential dangers lurking within it. Artwork C016 / 7535 takes us back to exploring synaptic connections themselves – showcasing their diversity while emphasizing their importance in neural communication. Each connection represents countless messages being passed along through this vast network.