Category:Synaptic plasticity

**synaptic plasticity**
	the ability of synapses to strengthen or weaken over time, in response to increases or decreases in their activity
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This category has the following 3 subcategories, out of 3 total.

Media in category "Synaptic plasticity"

The following 107 files are in this category, out of 107 total.

Active-Hippocampal-Networks-Undergo-Spontaneous-Synaptic-Modification-pone.0001250.s003.ogv 17 s, 374 × 147; 1.24 MB
Analog-Memristive-Synapse-in-Spiking-Networks-Implementing-Unsupervised-Learning-Video1.ogv 20 s, 560 × 420; 448 KB
Analog-Memristive-Synapse-in-Spiking-Networks-Implementing-Unsupervised-Learning-Video2.ogv 11 s, 560 × 420; 78 KB
Atomic-Force-Microscopy-Protocol-for-Measurement-of-Membrane-Plasticity-and-Extracellular-Video1.ogv 28 s, 1,440 × 1,080; 1.35 MB
Behavior-control-in-the-sensorimotor-loop-with-short-term-synaptic-dynamics-induced-by-self-Movie1.ogv 1 min 3 s, 1,134 × 810; 8.85 MB
Behavior-control-in-the-sensorimotor-loop-with-short-term-synaptic-dynamics-induced-by-self-Movie2.ogv 35 s, 1,678 × 732; 19.45 MB
Behavior-control-in-the-sensorimotor-loop-with-short-term-synaptic-dynamics-induced-by-self-Movie3.ogv 59 s, 1,146 × 704; 4.88 MB
Calcium-imaging-reveals-glial-involvement-in-transcranial-direct-current-stimulation-induced-ncomms11100-s2.ogv 20 s, 220 × 110; 2.27 MB
Calcium-imaging-reveals-glial-involvement-in-transcranial-direct-current-stimulation-induced-ncomms11100-s3.ogv 20 s, 220 × 110; 3.06 MB
Calcium-imaging-reveals-glial-involvement-in-transcranial-direct-current-stimulation-induced-ncomms11100-s4.ogv 13 s, 220 × 110; 361 KB
Calcium-imaging-reveals-glial-involvement-in-transcranial-direct-current-stimulation-induced-ncomms11100-s5.ogv 13 s, 220 × 110; 74 KB
Cell-biological-mechanisms-of-activity-dependent-synapse-to-nucleus-translocation-of-CRTC1-in-Video1.ogv 8.0 s, 1,783 × 812; 7.14 MB
Characterization-of-MSB-Synapses-in-Dissociated-Hippocampal-Culture-with-Simultaneous-Pre--and-pone.0026478.s002.ogv 5.7 s, 512 × 512; 535 KB
Characterization-of-MSB-Synapses-in-Dissociated-Hippocampal-Culture-with-Simultaneous-Pre--and-pone.0026478.s003.ogv 5.7 s, 608 × 352; 189 KB
Characterization-of-MSB-Synapses-in-Dissociated-Hippocampal-Culture-with-Simultaneous-Pre--and-pone.0026478.s004.ogv 5.7 s, 608 × 352; 218 KB
Cyclin-Y-inhibits-plasticity-induced-AMPA-receptor-exocytosis-and-LTP-srep12624-s2.ogv 21 s, 279 × 180; 1.54 MB
Cyclin-Y-inhibits-plasticity-induced-AMPA-receptor-exocytosis-and-LTP-srep12624-s3.ogv 17 s, 291 × 205; 1.27 MB
Daily-Thermal-Fluctuations-Experienced-by-Pupae-via-Rhythmic-Nursing-Behavior-Increase-Numbers-of-Video1.ogv 18 s, 640 × 480; 1.79 MB
Development-of-Neural-Circuitry-for-Precise-Temporal-Sequences-through-Spontaneous-Activity-Axon-pone.0000723.s005.ogv 51 s, 320 × 240; 287 KB
Developmental-Self-Construction-and--Configuration-of-Functional-Neocortical-Neuronal-Networks-pcbi.1003994.s004.ogv 51 s, 768 × 576; 5.71 MB
Developmental-Self-Construction-and--Configuration-of-Functional-Neocortical-Neuronal-Networks-pcbi.1003994.s005.ogv 21 s, 1,280 × 720; 4.64 MB
Distinctive-PSA-NCAM-and-NCAM-Hallmarks-in-Glutamate-Induced-Dendritic-Atrophy-and-Synaptic-pone.0108921.s001.ogv 19 s, 640 × 480; 180 KB
Distinctive-PSA-NCAM-and-NCAM-Hallmarks-in-Glutamate-Induced-Dendritic-Atrophy-and-Synaptic-pone.0108921.s002.ogv 18 s, 640 × 480; 257 KB
Distinctive-PSA-NCAM-and-NCAM-Hallmarks-in-Glutamate-Induced-Dendritic-Atrophy-and-Synaptic-pone.0108921.s003.ogv 19 s, 640 × 480; 86 KB
Distinctive-PSA-NCAM-and-NCAM-Hallmarks-in-Glutamate-Induced-Dendritic-Atrophy-and-Synaptic-pone.0108921.s004.ogv 19 s, 640 × 480; 97 KB
Diverse-synaptic-plasticity-mechanisms-orchestrated-to-form-and-retrieve-memories-in-spiking-neural-ncomms7922-s2.ogv 3 min 11 s, 1,280 × 720; 32.95 MB
Esempio di LTD.JPG 1,863 × 1,070; 141 KB
From-Spontaneous-Motor-Activity-to-Coordinated-Behaviour-A-Developmental-Model-pcbi.1003653.s006.ogv 1 min 31 s, 853 × 480; 1.8 MB
Heterosynaptic Plasticity-1.jpg 1,308 × 894; 186 KB
Heterosynaptic Plasticity.jpg 1,308 × 894; 141 KB
Homosynaptic Plasticity-1.jpg 1,308 × 894; 190 KB
Homosynaptic Plasticity.jpg 1,308 × 894; 147 KB
Homosynpatic plasticity.tiff 514 × 281; 35 KB
Long-term-Relationships-between-Cholinergic-Tone-Synchronous-Bursting-and-Synaptic-Remodeling-pone.0040980.s002.ogv 5.0 s, 640 × 480; 2.35 MB
Long-term-Relationships-between-Cholinergic-Tone-Synchronous-Bursting-and-Synaptic-Remodeling-pone.0040980.s003.ogv 5.0 s, 640 × 480; 3.14 MB
Long-Term-Relationships-between-Synaptic-Tenacity-Synaptic-Remodeling-and-Network-Activity-pbio.1000136.s008.ogv 34 s, 544 × 436; 20.17 MB
Long-Term-Relationships-between-Synaptic-Tenacity-Synaptic-Remodeling-and-Network-Activity-pbio.1000136.s009.ogv 7.4 s, 304 × 296; 1.51 MB
Long-Term-Relationships-between-Synaptic-Tenacity-Synaptic-Remodeling-and-Network-Activity-pbio.1000136.s010.ogv 7.4 s, 304 × 296; 1.51 MB
LTP-Promotes-a-Selective-Long-Term-Stabilization-and-Clustering-of-Dendritic-Spines-pbio.0060219.sv001.ogv 4.0 s, 1,024 × 768; 794 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s10.ogv 3.0 s, 585 × 467; 320 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s2.ogv 3.0 s, 379 × 391; 138 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s3.ogv 3.0 s, 272 × 349; 78 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s4.ogv 4.5 s, 700 × 500; 513 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s5.ogv 3.0 s, 454 × 454; 376 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s6.ogv 3.0 s, 454 × 454; 256 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s7.ogv 3.0 s, 471 × 471; 326 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s8.ogv 3.0 s, 600 × 400; 273 KB
Microglial-P2Y12-is-necessary-for-synaptic-plasticity-in-mouse-visual-cortex-ncomms10905-s9.ogv 3.0 s, 600 × 400; 265 KB
MiR-153-Regulates-SNAP-25-Synaptic-Transmission-and-Neuronal-Development-pone.0057080.s007.ogv 1 min 53 s, 320 × 240; 1.31 MB
Myosin-IIB-Activity-and-Phosphorylation-Status-Determines-Dendritic-Spine-and-Post-Synaptic-Density-pone.0024149.s001.ogv 25 s, 192 × 192; 2.89 MB
Myosin-IIB-Activity-and-Phosphorylation-Status-Determines-Dendritic-Spine-and-Post-Synaptic-Density-pone.0024149.s002.ogv 6.7 s, 759 × 367; 283 KB
Myosin-IIB-Activity-and-Phosphorylation-Status-Determines-Dendritic-Spine-and-Post-Synaptic-Density-pone.0024149.s003.ogv 6.7 s, 800 × 800; 493 KB
Mécanismes de la facilitation synaptique de court-terme.png 780 × 685; 32 KB
Mécanismes de la fatigue synaptique.png 1,159 × 566; 28 KB
Neuroligin-1-Loss-Is-Associated-with-Reduced-Tenacity-of-Excitatory-Synapses-pone.0042314.s001.ogv 3.7 s, 640 × 480; 3.98 MB
Neuron-Specific-Rab4-Effector-GRASP-1-Coordinates-Membrane-Specialization-and-Maturation-of-pbio.1000283.s011.ogv 6.1 s, 638 × 218; 906 KB
Neuron-Specific-Rab4-Effector-GRASP-1-Coordinates-Membrane-Specialization-and-Maturation-of-pbio.1000283.s012.ogv 6.1 s, 324 × 92; 185 KB
Neuron-Specific-Rab4-Effector-GRASP-1-Coordinates-Membrane-Specialization-and-Maturation-of-pbio.1000283.s013.ogv 6.8 s, 658 × 214; 3.72 MB
Neuron-Specific-Rab4-Effector-GRASP-1-Coordinates-Membrane-Specialization-and-Maturation-of-pbio.1000283.s014.ogv 4.3 s, 249 × 95; 1.09 MB
NMDA-R plasticity.png 978 × 1,051; 218 KB
Optogenetic-Probing-and-Manipulation-of-the-Calyx-Type-Presynaptic-Terminal-in-the-Embryonic-Chick-pone.0059179.s002.ogv 4.0 s, 360 × 360; 308 KB
Optogenetic-Probing-and-Manipulation-of-the-Calyx-Type-Presynaptic-Terminal-in-the-Embryonic-Chick-pone.0059179.s003.ogv 7.5 s, 360 × 360; 1.51 MB
Optogenetic-Probing-and-Manipulation-of-the-Calyx-Type-Presynaptic-Terminal-in-the-Embryonic-Chick-pone.0059179.s004.ogv 7.5 s, 360 × 360; 1.59 MB
Optogenetic-Probing-and-Manipulation-of-the-Calyx-Type-Presynaptic-Terminal-in-the-Embryonic-Chick-pone.0059179.s005.ogv 7.5 s, 360 × 360; 769 KB
Optogenetic-Probing-and-Manipulation-of-the-Calyx-Type-Presynaptic-Terminal-in-the-Embryonic-Chick-pone.0059179.s006.ogv 5.0 s, 109 × 118; 1.38 MB
Pannexin1-Stabilizes-Synaptic-Plasticity-and-Is-Needed-for-Learning-pone.0051767.s008.ogv 1 min 0 s, 640 × 360; 4.26 MB
PLCγ-activated-signalling-is-essential-for-TrkB-mediated-sensory-neuron-structural-plasticity-1471-213X-10-103-S1.ogv 2 min 0 s, 320 × 240; 1.37 MB
PLCγ-activated-signalling-is-essential-for-TrkB-mediated-sensory-neuron-structural-plasticity-1471-213X-10-103-S2.ogv 2 min 0 s, 320 × 240; 1.29 MB
Rapid-and-continuous-activity-dependent-plasticity-of-olfactory-sensory-input-ncomms10729-s2.ogv 6.1 s, 1,024 × 1,024; 1.34 MB
Rapid-and-continuous-activity-dependent-plasticity-of-olfactory-sensory-input-ncomms10729-s3.ogv 6.1 s, 990 × 975; 5.09 MB
Refinement-and-Pattern-Formation-in-Neural-Circuits-by-the-Interaction-of-Traveling-Waves-with-pcbi.1004422.s001.ogv 1 min 31 s, 192 × 192; 1,005 KB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s004.ogv 1 min 0 s, 500 × 366; 4.5 MB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s005.ogv 1 min 0 s, 500 × 366; 5.94 MB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s006.ogv 1 min 0 s, 500 × 366; 6.49 MB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s007.ogv 20 s, 254 × 400; 669 KB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s008.ogv 22 s, 316 × 350; 319 KB
Role-of-Myosin-Va-in-the-Plasticity-of-the-Vertebrate-Neuromuscular-Junction-In-Vivo-pone.0003871.s009.ogv 22 s, 316 × 350; 863 KB
Role-of-Sensory-Experience-in-Functional-Development-of-Drosophila-Motor-Circuits-pone.0062199.s002.ogv 43 s, 640 × 480; 11.78 MB
Shaping-Embodied-Neural-Networks-for-Adaptive-Goal-directed-Behavior-pcbi.1000042.s003.ogv 27 s, 500 × 500; 657 KB
Sparse-Distributed-Representation-of-Odors-in-a-Large-scale-Olfactory-Bulb-Circuit-pcbi.1003014.s003.ogv 1 min 52 s, 768 × 432; 35.27 MB
Spine Dynamics.jpg 2,864 × 676; 1.25 MB
STDP, LTP & LTD.png 1,349 × 1,006; 94 KB
Synaptic Plasticity Rule.png 360 × 369; 33 KB
Synaptic Tagging.jpg 1,388 × 860; 211 KB
Temporal-Profile-of-Endogenous-Anatomical-Repair-and-Functional-Recovery-following-Spinal-Cord-pone.0105857.s001.ogv 35 s, 1,280 × 720; 2.1 MB
Temporal-Profile-of-Endogenous-Anatomical-Repair-and-Functional-Recovery-following-Spinal-Cord-pone.0105857.s002.ogv 35 s, 1,280 × 720; 2.16 MB
Temporal-Profile-of-Endogenous-Anatomical-Repair-and-Functional-Recovery-following-Spinal-Cord-pone.0105857.s003.ogv 35 s, 1,280 × 720; 2.56 MB
Temporal-Profile-of-Endogenous-Anatomical-Repair-and-Functional-Recovery-following-Spinal-Cord-pone.0105857.s004.ogv 35 s, 1,280 × 720; 2.29 MB
Temporal-Profile-of-Endogenous-Anatomical-Repair-and-Functional-Recovery-following-Spinal-Cord-pone.0105857.s005.ogv 35 s, 1,280 × 720; 2.4 MB
The-Actin-Nucleator-Cobl-Is-Controlled-by-Calcium-and-Calmodulin-pbio.1002233.s017.ogv 19 s, 1,920 × 1,400; 2.12 MB
The-Actin-Nucleator-Cobl-Is-Controlled-by-Calcium-and-Calmodulin-pbio.1002233.s018.ogv 5.0 s, 1,920 × 1,400; 304 KB
The-Actin-Nucleator-Cobl-Is-Controlled-by-Calcium-and-Calmodulin-pbio.1002233.s019.ogv 5.0 s, 1,920 × 1,400; 472 KB
The-Actin-Nucleator-Cobl-Is-Controlled-by-Calcium-and-Calmodulin-pbio.1002233.s020.ogv 9.0 s, 1,920 × 1,200; 1.71 MB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s2.ogv 9.7 s, 854 × 480; 639 KB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s3.ogv 13 s, 854 × 480; 945 KB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s4.ogv 20 s, 854 × 480; 1.94 MB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s5.ogv 14 s, 854 × 480; 1.53 MB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s6.ogv 8.9 s, 854 × 480; 1.46 MB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s7.ogv 6.1 s, 854 × 480; 1,014 KB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s8.ogv 9.8 s, 854 × 480; 1.19 MB
The-Use-of-Hebbian-Cell-Assemblies-for-Nonlinear-Computation-srep12866-s9.ogv 12 s, 854 × 480; 1.11 MB
Unsupervised-Learning-of-Visual-Features-through-Spike-Timing-Dependent-Plasticity-pcbi.0030031.sv001.ogv 2 min 22 s, 470 × 490; 4.73 MB
Unsupervised-Learning-of-Visual-Features-through-Spike-Timing-Dependent-Plasticity-pcbi.0030031.sv002.ogv 3 min 20 s, 470 × 490; 8.67 MB
Unsupervised-Learning-of-Visual-Features-through-Spike-Timing-Dependent-Plasticity-pcbi.0030031.sv003.ogv 5 min 0 s, 470 × 490; 10.3 MB
Upward-synaptic-scaling-is-dependent-on-neurotransmission-rather-than-spiking-ncomms7339-s2.ogv 11 s, 256 × 256; 4.07 MB
Upward-synaptic-scaling-is-dependent-on-neurotransmission-rather-than-spiking-ncomms7339-s3.ogv 25 s, 256 × 256; 5.6 MB
When-Music-and-Long-Term-Memory-Interact-Effects-of-Musical-Expertise-on-Functional-and-Structural-pone.0013225.s001.ogg 24 s; 274 KB

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