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# BUNDA SURGAWI # # BUNDA MARIA 🌹🫶❤️✝️ #

# BUNDA SURGAWI # # BUNDA MARIA 🌹🫶❤️✝️ #

#الطباره #بني_لام #ال_فري_العيالة #النصيري #شيخ_سعد

#الطباره #بني_لام #ال_فري_العيالة #النصيري #شيخ_سعد

🧠The synaptic cleft is the small extracellular space (~20-40 nm wide) between two neurons at a synapse, specifically between the presynaptic neuron (which sends the signal) and the postsynaptic neuron (which receives it). This cleft plays a critical role in neuronal communication by serving as the site where neurotransmitters—chemical messengers—are released and bind to receptors on the next neuron. ⸻ Presynaptic and Postsynaptic Neurons • Presynaptic neuron: This is the neuron that initiates the signal. It contains synaptic vesicles filled with neurotransmitters, stored in the axon terminal. • Postsynaptic neuron: This neuron receives the signal. Its membrane contains neurotransmitter receptors, typically located on dendritic spines or the cell body. ⸻ Electrical to Chemical Signal Conversion 1. Action Potential Arrival: • A nerve impulse (action potential), which is an electrical signal, travels down the axon of the presynaptic neuron. 2. Calcium Influx: • When the action potential reaches the axon terminal, it causes voltage-gated calcium (Ca²⁺) channels to open. • Calcium ions flow into the terminal, driven by their concentration gradient. 3. Neurotransmitter Release: • The influx of Ca²⁺ triggers synaptic vesicles to fuse with the presynaptic membrane via SNARE proteins. • Neurotransmitters (e.g., glutamate, GABA, dopamine, acetylcholine) are released into the synaptic cleft via exocytosis. ⸻ Chemical to Electrical Signal Conversion 4. Neurotransmitter Binding: • Neurotransmitters diffuse across the cleft and bind to ligand-gated ion channels or G-protein-coupled receptors on the postsynaptic membrane. 5. Postsynaptic Potential: • This receptor activation alters membrane permeability, leading to ion flux (e.g., Na⁺ influx or Cl⁻ influx), creating either: • An excitatory postsynaptic potential (EPSP) – depolarizes the membrane, increasing the chance of action potential firing. • An inhibitory postsynaptic potential (IPSP) – hyperpolarizes the membrane, reducing excitability. 6. Action Potential Generation: • If the net EPSPs reach threshold at the axon hillock, an action potential is generated in the postsynaptic neuron, continuing the electrical signal. ⸻ Importance of the Synapse • Information processing: Synapses integrate multiple inputs, enabling complex neural computation. • Plasticity: Synapses can strengthen or weaken over time, underlying learning and memory (e.g., long-term potentiation). • Drug targets: Many pharmaceuticals and psychoactive drugs affect synaptic transmission by modifying neurotransmitter release, reuptake, or receptor activity. #BrainPower #SynapticCleft #Neurotransmitters #BrainSignals #ScienceExplained #BioStudentLife #NeuronsInAction #STEMLife #ScienceIsCool

🧠The synaptic cleft is the small extracellular space (~20-40 nm wide) between two neurons at a synapse, specifically between the presynaptic neuron (which sends the signal) and the postsynaptic neuron (which receives it). This cleft plays a critical role in neuronal communication by serving as the site where neurotransmitters—chemical messengers—are released and bind to receptors on the next neuron. ⸻ Presynaptic and Postsynaptic Neurons • Presynaptic neuron: This is the neuron that initiates the signal. It contains synaptic vesicles filled with neurotransmitters, stored in the axon terminal. • Postsynaptic neuron: This neuron receives the signal. Its membrane contains neurotransmitter receptors, typically located on dendritic spines or the cell body. ⸻ Electrical to Chemical Signal Conversion 1. Action Potential Arrival: • A nerve impulse (action potential), which is an electrical signal, travels down the axon of the presynaptic neuron. 2. Calcium Influx: • When the action potential reaches the axon terminal, it causes voltage-gated calcium (Ca²⁺) channels to open. • Calcium ions flow into the terminal, driven by their concentration gradient. 3. Neurotransmitter Release: • The influx of Ca²⁺ triggers synaptic vesicles to fuse with the presynaptic membrane via SNARE proteins. • Neurotransmitters (e.g., glutamate, GABA, dopamine, acetylcholine) are released into the synaptic cleft via exocytosis. ⸻ Chemical to Electrical Signal Conversion 4. Neurotransmitter Binding: • Neurotransmitters diffuse across the cleft and bind to ligand-gated ion channels or G-protein-coupled receptors on the postsynaptic membrane. 5. Postsynaptic Potential: • This receptor activation alters membrane permeability, leading to ion flux (e.g., Na⁺ influx or Cl⁻ influx), creating either: • An excitatory postsynaptic potential (EPSP) – depolarizes the membrane, increasing the chance of action potential firing. • An inhibitory postsynaptic potential (IPSP) – hyperpolarizes the membrane, reducing excitability. 6. Action Potential Generation: • If the net EPSPs reach threshold at the axon hillock, an action potential is generated in the postsynaptic neuron, continuing the electrical signal. ⸻ Importance of the Synapse • Information processing: Synapses integrate multiple inputs, enabling complex neural computation. • Plasticity: Synapses can strengthen or weaken over time, underlying learning and memory (e.g., long-term potentiation). • Drug targets: Many pharmaceuticals and psychoactive drugs affect synaptic transmission by modifying neurotransmitter release, reuptake, or receptor activity. #BrainPower #SynapticCleft #Neurotransmitters #BrainSignals #ScienceExplained #BioStudentLife #NeuronsInAction #STEMLife #ScienceIsCool

ты наивно думала у вас все серьезно// трек:ФОГЕЛЬ - Мальчик

ты наивно думала у вас все серьезно// трек:ФОГЕЛЬ - Мальчик

#اكسبلور #تفاعل #مشاهير_تيك_توك #الشعب_الصيني_ماله_حل😂😂 #اكسبلورexplore

#اكسبلور #تفاعل #مشاهير_تيك_توك #الشعب_الصيني_ماله_حل😂😂 #اكسبلورexplore

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