Neurotransmitter release hi-res stock photography and images

Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior. Stock Photo

RM2D7EAYA–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

An axon terminal is transmitting a signal to neuron.Vector illustration. Stock Vector

RF2WHK8F4–An axon terminal is transmitting a signal to neuron.Vector illustration.

neurotransmitter release mechanisms. Neurotransmitters are packaged into synaptic vesicles transmit signals from a neuron to a target cell across Stock Photo

RM2J83PYN–neurotransmitter release mechanisms. Neurotransmitters are packaged into synaptic vesicles transmit signals from a neuron to a target cell across

Botulinum neurotoxin C1 blocks neurotransmitter release - 3d illustration isometric view Stock Photo

RF2R28WJC–Botulinum neurotoxin C1 blocks neurotransmitter release - 3d illustration isometric view

PTL (Long Term Potentiation), step 1: massive release of glutamate by the presynaptic element. Stock Photo

RF2JKWREP–PTL (Long Term Potentiation), step 1: massive release of glutamate by the presynaptic element.

Neurotransmission. the presynaptic neuron releases a neurotransmitter, which activates receptors on the postsynaptic neuron. Synapse Structure Stock Vector

RF2JF1PNP–Neurotransmission. the presynaptic neuron releases a neurotransmitter, which activates receptors on the postsynaptic neuron. Synapse Structure

Detail of a nerve synapse showing the release of neurotransmitters. Stock Photo

RME4F03T–Detail of a nerve synapse showing the release of neurotransmitters.

Neurons transmission signals in the head on blue background. Synapse, 3d rendering Stock Photo

RFH3BK7T–Neurons transmission signals in the head on blue background. Synapse, 3d rendering

Neurons communication. Transmission of the nerve signal between two neurons. Close-up of a Synaptic cleft, chemical synapse, synaptic vesicle, Neurotr Stock Vector

RF2XER211–Neurons communication. Transmission of the nerve signal between two neurons. Close-up of a Synaptic cleft, chemical synapse, synaptic vesicle, Neurotr

Synapse between two neurons. The incoming nerve influx transmitted by the neurons axon triggers release of neurotransmitters from the neurotransmitter vesicles in the nerve ending. These neurotransmitters cross the synapse and stimulate the next nerve cell NEURON 001248 004 Stock Photo

RM2X92C71–Synapse between two neurons. The incoming nerve influx transmitted by the neurons axon triggers release of neurotransmitters from the neurotransmitter vesicles in the nerve ending. These neurotransmitters cross the synapse and stimulate the next nerve cell NEURON 001248 004

Synaptic transmission. Neurotransmission. Nerve impulse transition from presynaptic neuron to postsynaptic neuron. Neurotransmitter release. Vector Stock Vector

RF2W9NMTT–Synaptic transmission. Neurotransmission. Nerve impulse transition from presynaptic neuron to postsynaptic neuron. Neurotransmitter release. Vector

3D image of norepinephrine skeletal formula - molecular chemical structure of noradrenaline or noradrenalin isolated on white background Stock Photo

RF2JCRX3W–3D image of norepinephrine skeletal formula - molecular chemical structure of noradrenaline or noradrenalin isolated on white background

Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse. Stock Photo

RFHY3BR4–Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse.

3D image of Somatostatin skeletal formula - molecular chemical structure of growth hormone-inhibiting hormone isolated on white background Stock Photo

RF2M1MGE4–3D image of Somatostatin skeletal formula - molecular chemical structure of growth hormone-inhibiting hormone isolated on white background

Detailed Vector Illustration of Neuromuscular Junction for Neuroscience, Anatomy, and Physiology Education on White Background. Stock Vector

RF2XA54YR–Detailed Vector Illustration of Neuromuscular Junction for Neuroscience, Anatomy, and Physiology Education on White Background.

Signal Pheromone In test tube in biochemical lab Signal pheromones cause short-term changes, such as the neurotransmitter release that activates a res Stock Photo

RF2K8ECX1–Signal Pheromone In test tube in biochemical lab Signal pheromones cause short-term changes, such as the neurotransmitter release that activates a res

Representation of a brain and the nerve links that go down the spinal cord. Stock Photo

RF2M36GJ7–Representation of a brain and the nerve links that go down the spinal cord.

Scientifically accurate structure of a synapse Stock Photo

RFCT2789–Scientifically accurate structure of a synapse

3D image of histamine skeletal formula - molecular chemical structure of mediator of itching isolated on white background, Stock Photo

RF2JCRW5E–3D image of histamine skeletal formula - molecular chemical structure of mediator of itching isolated on white background,

RM2D7EB7C–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

Structure of a typical chemical synapse.Vector illustration. Stock Vector

RF2WHK8FW–Structure of a typical chemical synapse.Vector illustration.

RM2J83PJB–neurotransmitter release mechanisms. Neurotransmitters are packaged into synaptic vesicles transmit signals from a neuron to a target cell across

Botulinum neurotoxin C1 blocks neurotransmitter release - 3d illustration closeup view Stock Photo

RF2R28WFD–Botulinum neurotoxin C1 blocks neurotransmitter release - 3d illustration closeup view

RM2J83T76–neurotransmitter release mechanisms. Neurotransmitters are packaged into synaptic vesicles transmit signals from a neuron to a target cell across

Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc Stock Photo

RM2D4R065–Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc

RF2JKWRGB–PTL (Long Term Potentiation), step 1: massive release of glutamate by the presynaptic element.

RM2D7EB9R–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

Neurons transmission signals in the head on green background. Synapse, 3d rendering Stock Photo

RFH3BK7W–Neurons transmission signals in the head on green background. Synapse, 3d rendering

RM2X8FF4E–Synapse between two neurons. The incoming nerve influx transmitted by the neurons axon triggers release of neurotransmitters from the neurotransmitter vesicles in the nerve ending. These neurotransmitters cross the synapse and stimulate the next nerve cell NEURON 001248 004

Treatment of migraine by inhibiting the release of neurotransmitters at synapses. Stock Photo

RF2GK0055–Treatment of migraine by inhibiting the release of neurotransmitters at synapses.

A diagram nerveus cell.Vector illustration. Stock Vector

RF2WKM629–A diagram nerveus cell.Vector illustration.

RFHY3BR1–Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse.

vector illustration nerve impulse transmission along neuron vector illustration of nerve impulse transmission along neuron Stock Vector

RF2T5R0KT–vector illustration nerve impulse transmission along neuron vector illustration of nerve impulse transmission along neuron

Illustration showcasing the brain's endorphin release, triggering happiness. Connection between emotions, heart, and positivity. Chemistry of joy, neural pathways, and emotional balance. Flat vector Stock Vector

RF2X9XWGD–Illustration showcasing the brain's endorphin release, triggering happiness. Connection between emotions, heart, and positivity. Chemistry of joy, neural pathways, and emotional balance. Flat vector

The chemical transmission of a nerve impulse at the synapse. Stock Photo

RMBCE629–The chemical transmission of a nerve impulse at the synapse.

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 320 NEUROBIOLOGY AND BIOPHYSICS Inhibitory Effects of Nonhydrolyzable Guanine Nucleotides on Neurotransmitter Release at the Squid Giant Synapse Peter Doroshenko, Stephen Hess, and George Augustine (Duke University Medical Center) We are examining the role of GTP-binding regulatory proteins in the control of neurotransmitter release. To this end, we in- jected two nonhydrolyzable guanine nucleotides into the giant presynaptic terminal of the most distal synapse of the stellate ganglion of the squid, Loligo pealei, and studie Stock Photo

RMRHMFFJ–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 320 NEUROBIOLOGY AND BIOPHYSICS Inhibitory Effects of Nonhydrolyzable Guanine Nucleotides on Neurotransmitter Release at the Squid Giant Synapse Peter Doroshenko, Stephen Hess, and George Augustine (Duke University Medical Center) We are examining the role of GTP-binding regulatory proteins in the control of neurotransmitter release. To this end, we in- jected two nonhydrolyzable guanine nucleotides into the giant presynaptic terminal of the most distal synapse of the stellate ganglion of the squid, Loligo pealei, and studie

Exocytosis process. Cell transports particles out of the cell. Active and bulk transport mechanism that requires energy. Fusion of secretory vesicles Stock Vector

RF2TA6DEX–Exocytosis process. Cell transports particles out of the cell. Active and bulk transport mechanism that requires energy. Fusion of secretory vesicles

RM2J83RBY–neurotransmitter release mechanisms. Neurotransmitters are packaged into synaptic vesicles transmit signals from a neuron to a target cell across

RM2D7EB75–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RF2GK5R4N–Treatment of migraine by inhibiting the release of neurotransmitters at synapses.

RFHY3BR0–Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse.

RF2WP71EC–Illustration showcasing the brain's endorphin release, triggering happiness. Connection between emotions, heart, and positivity. Chemistry of joy, neural pathways, and emotional balance. Flat vector

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. NEUROBIOLOGY 299 Reference: Biol. Hull 185: 299-300. (October. 1993) Activity-Dependent Inhibition of Neurotransmitter Release by Brefeldin A 5. T. Brady (Depl. of Cell Biology ami euroscience. University of Texas Southwestern Medical Center, 5323 Harry Hines Blvd., Dallas, TX 75235-9111), M. Suginwri, P. L. Leopold, J.-W. Lin, D. S. Chit, andR. Llinds The fungal metabolite Brefeldin A (BFA) disrupts membrane sorting in the Golgi complex and the endocytic and secretory compartments of nonneuronal cells (1,2) by inducing the Stock Photo

RMRHKKTM–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. NEUROBIOLOGY 299 Reference: Biol. Hull 185: 299-300. (October. 1993) Activity-Dependent Inhibition of Neurotransmitter Release by Brefeldin A 5. T. Brady (Depl. of Cell Biology ami euroscience. University of Texas Southwestern Medical Center, 5323 Harry Hines Blvd., Dallas, TX 75235-9111), M. Suginwri, P. L. Leopold, J.-W. Lin, D. S. Chit, andR. Llinds The fungal metabolite Brefeldin A (BFA) disrupts membrane sorting in the Golgi complex and the endocytic and secretory compartments of nonneuronal cells (1,2) by inducing the

RM2D7EAY2–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RM2D4R06B–Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc

RFHY3BR7–Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse.

Brain's joy journey. Highlighting the release of endorphins, the feel-good chemicals, this illustration visualizes the connection between positive stimuli and a happy mood. Happiness in neuroscience Stock Vector

RF2WKRCPB–Brain's joy journey. Highlighting the release of endorphins, the feel-good chemicals, this illustration visualizes the connection between positive stimuli and a happy mood. Happiness in neuroscience

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EFFERENT-STIMULATED PROTEIN PHOSPHORYLATION IN UMULUS EYES 277 Limu/us brain. Figure 6. A model for the regulation of visual function hy efferent innervation. (I) At night, a circadian clock in the central nervous sys- tem activates the efferent libers innervating Limulus eyes, causing the release of the efferent neurotransmitter octopamine (OCT). (2) The in- teraction of OCT with OCT-specific receptors on the photorecoptors, and perhaps other cell types in the lateral eye, increases the activity of adenylate cyclase, thereb Stock Photo

RMRHMY0J–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. EFFERENT-STIMULATED PROTEIN PHOSPHORYLATION IN UMULUS EYES 277 Limu/us brain. Figure 6. A model for the regulation of visual function hy efferent innervation. (I) At night, a circadian clock in the central nervous sys- tem activates the efferent libers innervating Limulus eyes, causing the release of the efferent neurotransmitter octopamine (OCT). (2) The in- teraction of OCT with OCT-specific receptors on the photorecoptors, and perhaps other cell types in the lateral eye, increases the activity of adenylate cyclase, thereb

RM2D4R067–Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc

RFHY3BR8–Nerve synapse. Computer illustration 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 neurotransmitters across the gap, or synaptic cleft, between the two cells. The neurotransmitters bind to receptors on the postsynaptic membrane, changing the membrane's excitability and triggering an electrical impulse.

Synapse. Computer illustration of a synapse, the junction between two neurons. Synapses transmit electrical signals from one nerve cell to the next. When the signal reaches the synapse it triggers the release of chemicals called neurotransmitters. The neurotransmitters cross a microscopic gap called the synaptic cleft and pass through channels into the receptor nerve cell (top), where they trigger an electrical impulse. Stock Photo

RFHX323F–Synapse. Computer illustration of a synapse, the junction between two neurons. Synapses transmit electrical signals from one nerve cell to the next. When the signal reaches the synapse it triggers the release of chemicals called neurotransmitters. The neurotransmitters cross a microscopic gap called the synaptic cleft and pass through channels into the receptor nerve cell (top), where they trigger an electrical impulse.

RF2X48RCE–Brain's joy journey. Highlighting the release of endorphins, the feel-good chemicals, this illustration visualizes the connection between positive stimuli and a happy mood. Happiness in neuroscience

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 366 M- NAGAI ET AL.. 50mM 3«109M 3*109M I 1 2* 2+ ' ' -5 Ca .Mg r(ree saline (+1 mM.EDTA) Arh[5xlO M, FIGURE 6. Typical recording of the response of Japanese common catfish (Parasilurus asotus) mela- nophores to MCH, showing that the pigment-aggregating effect of the peptide was still remarkable in Ca2+- free saline, in which the release of peripheral stores of neurotransmitter (ACh) was inhibited. 50 mM K+ Ringer (K+) was used for neural stimulation. Finally, 5 X 105 Macetylcholine(ACh)was applied to induce the full aggr Stock Photo

RMRHN056–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 366 M- NAGAI ET AL.. 50mM 3«109M 3*109M I 1 2* 2+ ' ' -5 Ca .Mg r(ree saline (+1 mM.EDTA) Arh[5xlO M, FIGURE 6. Typical recording of the response of Japanese common catfish (Parasilurus asotus) mela- nophores to MCH, showing that the pigment-aggregating effect of the peptide was still remarkable in Ca2+- free saline, in which the release of peripheral stores of neurotransmitter (ACh) was inhibited. 50 mM K+ Ringer (K+) was used for neural stimulation. Finally, 5 X 105 Macetylcholine(ACh)was applied to induce the full aggr

RF2D4PYND–Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc

RFHX3236–Synapse. Computer illustration of a synapse, the junction between two neurons. Synapses transmit electrical signals from one nerve cell to the next. When the signal reaches the synapse it triggers the release of chemicals called neurotransmitters. The neurotransmitters cross a microscopic gap called the synaptic cleft and pass through channels into the receptor nerve cell (top), where they trigger an electrical impulse.

RM2D4R069–Serotonin (a neurotransmitter) presented as ball-and-stick model. Its biological function is modulating mood, cognition, reward, learning, memory, etc

RM2D7EB71–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RFHX3235–Synapse. Computer illustration of a synapse, the junction between two neurons. Synapses transmit electrical signals from one nerve cell to the next. When the signal reaches the synapse it triggers the release of chemicals called neurotransmitters. The neurotransmitters cross a microscopic gap called the synaptic cleft and pass through channels into the receptor nerve cell (top), where they trigger an electrical impulse.

RM2D7EAXN–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RFHX322W–Synapse. Computer illustration of a synapse, the junction between two neurons. Synapses transmit electrical signals from one nerve cell to the next. When the signal reaches the synapse it triggers the release of chemicals called neurotransmitters. The neurotransmitters cross a microscopic gap called the synaptic cleft and pass through channels into the receptor nerve cell (top), where they trigger an electrical impulse.

RF2H548R3–Synapse, illustration

RF2H3NXBD–Synapse, illustration

RM2D7EB3R–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RF2H3NXA7–Synapse illustration

RM2D7EAPH–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RM2D7EAMM–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

Serotonin, a neurotransmitter. Its function is complex, modulating mood, cognition, reward, learning, memory, and numerous physiological processes. Stock Photo

RM2D7EB14–Serotonin, a neurotransmitter. Its function is complex, modulating mood, cognition, reward, learning, memory, and numerous physiological processes.

RM2D7EB7M–Serotonin, a neurotransmitter. Its function is complex, modulating mood, cognition, reward, learning, memory, and numerous physiological processes.

RM2D7EAKX–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RM2D7EAW2–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RM2D7EB6W–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

RM2D7EAHB–Dopamine is a hormone and a neurotransmitter that plays several important roles in the brain and body. A component of reward-motivated behavior.

Neurotransmitter release Stock Photos and Images

Neurotransmitter release Stock Photos and Images

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