Exam 3 W 42 in class Review T

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Exam #3 W 4/2 in class Review T 4/1 from 5 -7 pm in

Exam #3 W 4/2 in class Review T 4/1 from 5 -7 pm in PAI 3. 02 Before Exam #3: the nervous system, movement and the immune system

Two ways to think about the world: Reductionism atoms molecules organelles cells tissues organs

Two ways to think about the world: Reductionism atoms molecules organelles cells tissues organs systems organisms environment

Two ways to think about the world: Reductionism atoms molecules organelles cells tissues organs

Two ways to think about the world: Reductionism atoms molecules organelles cells tissues organs systems organisms Wholism environment

Sensing and reacting to the environment is critical

Sensing and reacting to the environment is critical

Failure to properly sense and react to the environment can be fatal

Failure to properly sense and react to the environment can be fatal

Nerves allow us to perceive the environment while the brain integrates the incoming signals

Nerves allow us to perceive the environment while the brain integrates the incoming signals to determine an appropriate response. CB 48. 3

Neurons: cells specialized for transmitting signals CB 48. 5

Neurons: cells specialized for transmitting signals CB 48. 5

Parts of a neuron Axon Signals

Parts of a neuron Axon Signals

In the brain neurons are shorter and highly interconnected CB 48. 7

In the brain neurons are shorter and highly interconnected CB 48. 7

CB 48. 5 Neurons: signals move through neurons electrically and between neurons chemically

CB 48. 5 Neurons: signals move through neurons electrically and between neurons chemically

Nervous System Signaling Stimulus Transduction Response

Nervous System Signaling Stimulus Transduction Response

Ionic gradients in neurons plasma membrane CB 48. 10 Na+/K+ pump Na+ ATP–>ADP K+

Ionic gradients in neurons plasma membrane CB 48. 10 Na+/K+ pump Na+ ATP–>ADP K+

At rest, the Na+/K+ gradient is maintained CB 48. 13

At rest, the Na+/K+ gradient is maintained CB 48. 13

Depolarization occurs with the opening of Na+ channels CB 48. 13

Depolarization occurs with the opening of Na+ channels CB 48. 13

An action potential starts when the local depolarization causes other Na+ channels to open

An action potential starts when the local depolarization causes other Na+ channels to open CB 48. 13

Action potentials only occur when the initial depolarization is above threshold CB 48. 12

Action potentials only occur when the initial depolarization is above threshold CB 48. 12

An action potential starts when the local depolarization causes other Na+ channels to open

An action potential starts when the local depolarization causes other Na+ channels to open CB 48. 13

CB 48. 13 Repolarization is achieved via closing Na+ and opening K+ channels

CB 48. 13 Repolarization is achieved via closing Na+ and opening K+ channels

the Na+/K+ pump reestablishes the resting state CB 48. 13

the Na+/K+ pump reestablishes the resting state CB 48. 13

Depolarization of one part of the membrane opens Na+ channels further along so the

Depolarization of one part of the membrane opens Na+ channels further along so the signal travels from one end to the other CB 48. 14

Myelination: allows the depolarization to travel faster CB 48. 8

Myelination: allows the depolarization to travel faster CB 48. 8

Myelination: allows the depolarization to travel faster…it jumps CB 48. 15

Myelination: allows the depolarization to travel faster…it jumps CB 48. 15

Neurons: signals move through neurons electrically and between neurons chemically CB 48. 5

Neurons: signals move through neurons electrically and between neurons chemically CB 48. 5

At the end of the neuron, neurotransmitters are released signaling the next neuron to

At the end of the neuron, neurotransmitters are released signaling the next neuron to depolarize CB 48. 17

Neurotransmitters can be excitatory or inhibitory (+) CB tbl 48. 1 (–) (+) (+/–)

Neurotransmitters can be excitatory or inhibitory (+) CB tbl 48. 1 (–) (+) (+/–) (–)

At the synapse the electrical signal is converted to a chemical signal electrical at

At the synapse the electrical signal is converted to a chemical signal electrical at synapse chemical electrical

Neurons are commonly connected to many other neurons, and the effect of the different

Neurons are commonly connected to many other neurons, and the effect of the different incoming signals determines what the neuron will do. CB 48. 16

Neurons are commonly connected to many other neurons, and the effect of the different

Neurons are commonly connected to many other neurons, and the effect of the different incoming signals determines what the neuron will do. CB 48. 18

Incoming signals move through neurons. Only signals above threshold are transmitted along the neuron.

Incoming signals move through neurons. Only signals above threshold are transmitted along the neuron.

Neuron videos: http: //www. youtube. com/watch? v=Yw. N 9 a. Cob. Cy 8 http:

Neuron videos: http: //www. youtube. com/watch? v=Yw. N 9 a. Cob. Cy 8 http: //www. blackwellpublishing. com/matthews/actionp. html http: //www. blackwellpublishing. com/matthews/nmj. html

The brain and the central nervous system integrate the various incoming signals CB 48.

The brain and the central nervous system integrate the various incoming signals CB 48. 19