Neurons: The Building Blocks
In nervous system, neurons are in charge of signal transmission and enabling communication between various body sections. They are essential for information processing and transmission, which allows living beings to sense their surroundings, respond, and synchronize physiological processes.
Structure of Neurons
- Cell Body (Soma): The nucleus and other organelles necessary for cellular repair and function are located in the cell body, which is the core portion of the neuron.
- Dendrites: Dendrites are branching projections that extend from the cell body and are the primary locations for receiving information from neighboring neurons or sense receptors.
- Axon: A neuron’s axon is a long, thin projection that projects from the cell body and sends messages to neighboring neurons, muscles, or glands.
- A lipid substance called myelin may coat axons, causing them to become myelinated. This process improves the speed and effectiveness of signal transmission.
Also Read: Difference Between Axon and Dendrite
Function of Neurons
The following processes are involved in the process known as neurotransmission, which is how neurons send signals:
Signal Reception
- Neurons’ dendrites carry impulses that are received from other neurons or sensory receptors.
- These signals can be inhibitory, which lowers neuronal activity, or stimulating, which promotes the generation of an electrical impulse.
Integration
- The neuron connects the inputs before determining whether to generate an action potential, which is a brief electrical impulse that travels down the axon. .
Action Potential Generation:
- The neuron initiates an action potential when signals exceeds a certain threshold.
- Voltage-gated ion channels in neurons cause a sudden shift in the membrane potential when their membranes open, allowing ions such as potassium and sodium to enter and exit the cell, respectively.
Axon Conduction
- The opening and shutting of ion channels causes the action potential to move down the axon in a wave-like pattern.
- Saltatory conduction, which occurs when the action potential in myelinated neurons hops across nodes of gaps in the myelin sheath, speeds up signal transmission.
Synaptic Transmission:
- Neurotransmitters are released into the synaptic cleft the narrow space between one neuron’s axon terminal and the dendrites of another when the action potential reaches the axon terminals.
- When neurotransmitters attach to postsynaptic neuron receptors, they either change the activity of the neuron or produce a new electrical signal.
Animals Nervous System
An animal’s nervous system is a complex structure of tissues and cells that is essential to its ability to operate. Animals nervous system parts and functions consist of the brain, spinal cord, and nerves, coordinating sensory input, processing information, and generating responses to maintain homeostasis and regulate bodily functions. The nervous system regulates every bodily function, from basic reflexes to intricate actions. In this article, we will cover the animal nervous system, its parts, classification, and more. You can also find Animals Nervous System notes here.
Table of Content
- What is Animal Nervous System?
- Functions of the Animal Nervous System
- Anatomy of the Nervous System
- Types of Peripheral Nervous System
- Neurons: The Building Blocks
- Parts of the Brain and Their Functions
- Types of Nerves
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