AP Biology Nervous Systems Part 1.

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AP Biology Nervous Systems Part 1.

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Presentation transcript:

AP Biology Nervous Systems Part 1

Step 1: Reception

Step 2: Transduction

Step 3: Response

150 mM KCl 150 mM NaCl –92 mV +62 mV Inner chamber Outer chamber Inner Ions and Energy –92 mV +62 mV Inner chamber Outer chamber Inner chamber Outer chamber 150 mM KCl 5 mM KCl 15 mM NaCl 150 mM NaCl Cl– K+ Na+ Cl– Potassium channel Sodium channel Artificial membrane

Evolution of a Nervous System Everything starts with the evolution of an organism-wide nerve net in Cnidarians  helps to control movement. Then, evolution of a “brain” helps lead to greater control  utilization of a nerve cord to span the whole body. Cephalization through the evolution of a “head region” allows for reception and response to many different stimuli.

Evolution of a Nervous system in Animals

Overview of the Nervous System Sensory Input: sending information into the brain or spinal cord. Sensory receptors found within the body receive a stimulus from outside environment. A stimulus is a form of energy such as light, chemicals, pressure or sound waves.

Overview of the Nervous System 2. Integration: this is the interpretation of the energy by the CNS. This interpretation of the stimulus leads to a determination of what the appropriate response will be.

Overview of the Nervous System 3. Motor Output: sending out impulses from the brain and spinal cord to glands or muscles to create a response. This response is carried out by effector cells – these structures can have an effect on the body.

CNS vs. PNS Central Nervous System (CNS) - This includes the brain and spinal cord. This part of the nervous system does the overall “thinking” about stimuli that the body receives. Peripheral Nervous System (PNS) This includes all sensory receptors and motor nerves that spread out throughout the body. This part of the nervous system carries out the response to stimuli.

Neuron structure Neuron Structure: cell body, dendrites, axon, myelin sheath, synaptic terminal, synapse, neurotransmitters, presynaptic cell, postsynaptic cell

Synapse and Neurotransmitter Nerve signals must move through local communication (synaptic communication). This means that each neuron does not physically touch the next. All signals must transition between electrical and chemical messages. This all takes place at the synapse!

Schwann Cells OR Oligiodendrocytes Nodes of Ranvier Layers of myelin Axon Schwann cell Schwann cell Axon Nodes of Ranvier Nucleus of Schwann cell Myelin sheath 0.1 µm