2.3:

Neurons as Communicators of the Brain

JoVE Core
Introduction to Psychology
Zum Anzeigen dieser Inhalte ist ein JoVE-Abonnement erforderlich.  Melden Sie sich an oder starten Sie Ihre kostenlose Testversion.
JoVE Core Introduction to Psychology
Neurons as Communicators of the Brain

103 Views

01:22 min

August 29, 2024

Neurons, the fundamental units of the brain and nervous system, function as the primary transmitters of information throughout the body. Their ability to communicate through electrical and chemical signals is vital for every bodily function, from regulating the heartbeat to processing complex thoughts. Each neuron has three main components: the cell body (soma), dendrites, and an axon, each specialized to facilitate swift and efficient neural communication.

Cell Body

The cell body, also known as soma, is the command center of the neuron. It contains the nucleus, which houses the neuron's genetic material and is responsible for maintaining the cell's overall health and functionality. The cytoplasm surrounding the nucleus is packed with organelles that produce proteins and neurotransmitters essential for neuron growth, repair, and communication.

Dendrites

Extending from the soma are dendrites, which resemble the branches of a tree. These structures are designed to maximize surface area, allowing for the reception of signals from multiple neurons at the same time. The Dendrites area is crucial in collecting and directing information back to the neuron's core, where it can be processed and transmitted to other parts of the nervous system.

Axon

The axon is a long, slender projection that extends from the cell body and specializes in transmitting electrical signals away from the neuron. These signals can travel over considerable distances — for example, from the brain to the spinal cord. Axons may vary significantly in length, with some reaching up to three feet or more. They often branch out to communicate with multiple target cells, ensuring that messages are distributed across the nervous system. Most axons are wrapped in a myelin sheath to enhance the speed and efficiency of signal transmission. This fatty layer acts as an insulator, reducing signal loss and accelerating the movement of electrical impulses along the axon through a process known as saltatory conduction.

Surrounding the neuron is a semipermeable membrane that controls the internal environment of the cell by regulating the ions and molecules that enter and leave. This membrane features specialized channels and pumps that play critical roles in generating nerve impulses, which are crucial for neuron-to-neuron communication. Together, these features enable the neuron to perform its vital role as the communicator of the nervous system, impacting every action and reaction within the human body.