ion channel membrane proteins
The nervous system is what is responsible for transmitting signals throughout the body.
This is the nervous system.
nerve cells are everywhere! for example, you get inched and it hurts. the pain sends signals to your brain. your brain then causes you to react...by saying OUCH!!! When the signals get sent to your brain, your brain tells them how to react...you bbleed, your brain tells the affected area to create a scab.
The nervous system conducts electrical signals from one structure to another. For example from the brain to the muscles for movement.
Hormones
There are billions of nerves in the nervous system. The nervous system is responsible for transmitting signals throughout the body.
The nervous system is what is responsible for transmitting signals throughout the body.
the brain is responsible for higher level thinking, such as planning a trip. The rest of the nervous system is mainly for receiving and transmitting signals
There are billions of nerves in the nervous system. The nervous system is responsible for transmitting signals throughout the body.
Regular protein is used by the body for nutrition. G protein is used by the body for transmitting signals and messages between various cells. More detailed information is available on Wikipedia.
Amplitude Modulation and Frequency Modulation. They are different methods of transmitting radio signals. AM is good for transmitting radio signals long distance FM is good for transmitting radio signals short distances but better quality
Cell Membrane
Phosphorylation plays a critical role in the regulation of many cellular processes including: cell cycle, growth, apoptosis and signal transduction pathways. It is the most common mechanism of regulating protein function and transmitting signals throughout the cell.
The nervous system's ultimate function is to interpret and respond to sensory signals from the environment.The nervous system consists of two main categories:1. Peripheral Nervous System (PNS): receives sensory stimuli, passes stimulus information to CNS in the form of an electrical action potential.2. Central Nervous System (CNS): consists of brain and spinal cord; interprets signals coming from sensory stimuli in the periphery and decides appropriate response to initiate- Afferent neurons transmit sensory signals from the PNS to the CNS- Efferent neurons transmit response signals to targets in the body to respond accordingly to initial sensory stimulus.
neurons
Multiplexor
Multiplexor