Postsynaptic neuron

A neuron that receives signals from another neuron.

  1. Excitatory postsynaptic potentials (EPSPs) vs. inhibitory postsynaptic potentials (IPSPs) (Nootropic Key Ideas)
  2. Excitatory vs. Inhibitory Neurons (Neuroscience Tips)
  3. Synaptic Vesicles vs. Neurotransmitter Release (Neuroscience Tips)
  4. Neurotransmitter Release vs. Reuptake (Neuroscience Tips)
  5. Neurotransmitter vs. Neuromodulator (Neuroscience Tips)
  6. Neurotransmission vs. Neuromodulation (Neuroscience Tips)
  7. Excitatory neurotransmitters vs. inhibitory neurotransmitters (Nootropic Key Ideas)
  8. Neurotransmission vs. Neurotransmitter Release (Neuroscience Tips)
  9. Excitation vs. Inhibition Balance (Neuroscience Tips)
  10. Axon Terminal vs. Presynaptic Membrane (Neuroscience Tips)
  11. Spike Timing-Dependent Plasticity (STDP) vs. Hebbian Plasticity (Neuroscience Tips)
  12. Neuron vs. Neurotransmitter (Neuroscience Tips)
  13. Neurotransmitter synthesis vs. degradation (Nootropic Key Ideas)
  14. Decoding Cognitive Science: Agonist vs. Antagonist Neurons (Neuroscience Basics)
  15. Neurotransmitter release vs. retrograde signaling (Nootropic Key Ideas)
  16. Long-Term Potentiation (LTP) vs. Long-Term Depression (LTD) (Neuroscience Tips)
  17. Spontaneous vs. Evoked Neural Activity (Neuroscience Tips)
  18. Cell Body vs. Axon (Neuroscience Tips)
  19. Synaptic Transmission vs. Axonal Conduction (Neuroscience Tips)
  20. Hyperpolarization vs. Depolarization (Neuroscience Tips)
  21. Synaptic transmission vs. synaptic plasticity (Nootropic Key Ideas)
  22. Resting Potential vs. Action Potential (Neuroscience Tips)
  23. Synaptic Plasticity vs. Structural Plasticity (Neuroscience Tips)
  24. Excitatory vs. Inhibitory Synaptic Transmission (Neuroscience Tips)
  25. Excitatory Postsynaptic Potential (EPSP) vs. Inhibitory Postsynaptic Potential (IPSP) (Neuroscience Tips)
  26. Decoding Cognitive Science: Sensory vs Motor Neurons (Neuroscience Basics)
  27. NMDA Receptors vs. AMPA Receptors (Neuroscience Tips)
  28. Neuronal Excitability vs. Neuronal Firing Rate (Neuroscience Tips)
  29. Nociception vs. Nociceptors (Neuroscience Tips)
  30. Reuptake vs. Enzymatic Degradation (Neuroscience Tips)
  31. Neurotransmitter Release vs. Neurotransmitter Reuptake (Neuroscience Tips)
  32. Vesicular Transporter vs. Reuptake Transporter (Neuroscience Tips)
  33. Associative Memory vs. Non-associative Memory (Neuroscience Tips)
  34. Monoamine vs. Amino Acid Neurotransmitters (Neuroscience Tips)
  35. Lateral Inhibition vs. Reciprocal Inhibition (Neuroscience Tips)
  36. Glutamate vs. GABA (Neuroscience Tips)
  37. Neuromodulation vs. Neurotransmission (Neuroscience Tips)
  38. Neuromodulation vs. Neural Plasticity (Neuroscience Tips)
  39. AMPA receptors vs. NMDA receptors (Nootropic Key Ideas)
  40. Synaptic Integration vs. Temporal Summation (Neuroscience Tips)
  41. Spiking vs. Non-Spiking Neurons (Neuroscience Tips)
  42. Sensory Transduction vs. Perception (Neuroscience Tips)
  43. Sensory Receptors vs. Sensory Transduction (Neuroscience Tips)
  44. Neurotransmitters vs. neuromodulators (Nootropic Key Ideas)
  45. Acetylcholine vs. GABA (Neuroscience Tips)
  46. Neurotransmitters vs. Hormones (Memory Care Tips)
  47. Neurotransmitter diffusion vs. active transport (Nootropic Key Ideas)
  48. Insulin Vs. Glucagon: Roles in Cognitive Function
  49. Action Potential vs. Resting Potential (Neuroscience Tips)
  50. Alpha Motor Neurons vs. Gamma Motor Neurons (Neuroscience Tips)
  51. Transduction vs. Transmission (Neuroscience Tips)
  52. Synaptic Pruning vs. Synaptic Potentiation (Neuroscience Tips)
  53. How Does Neurobiology Influence Cognitive Science? (10 Important Questions Answered)
  54. Axon vs. Dendrite (Neuroscience Tips)
  55. Neurotransmitter diffusion vs. synaptic cleft reuptake (Nootropic Key Ideas)
  56. Cholinergic vs. Noradrenergic Neurons (Neuroscience Tips)
  57. Neural Circuit vs. Neural Network (Neuroscience Tips)
  58. Neurotransmitter release vs. vesicular transport (Nootropic Key Ideas)
  59. Glial Cells vs. Neurons (Neuroscience Tips)
  60. Neurotransmitter reuptake vs. enzymatic degradation (Nootropic Key Ideas)
  61. Receptor vs. Ion Channel (Neuroscience Tips)
  62. Gray Matter vs. White Matter (Neuroscience Tips)
  63. NMDA Receptor vs. AMPA Receptor (Neuroscience Tips)
  64. How to Understand Memory without Neuroscience (Cognitive Science Tips)
  65. Implicit Memory Vs. Explicit Memory (Spaced Repetition Memory Improvement Tips)
  66. Neurotransmitter vs. Hormone (Neuroscience Tips)
  67. Neurotransmitters vs. Neurohormones (Memory Care Tips)
  68. NMDA Receptors vs. GABA Receptors (Neuroscience Tips)