2459095
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Mind Map by Marisa Orlow, updated more than 1 year ago
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Created by Marisa Orlow
over 9 years ago
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Biology Unit 4
- Neuron Communication: Action Potentials
- Neurons generate action potentials: rapid changes
- What happens to the resting potential when Na+ channels open?
- Depolarization!
- The internal charge becomes more positive
- Depolarization!
- What happens to the resting potential when K+ channels open?
- Hyperpolarization
- The internal charge becomes more negative.
- Hyperpolarization
- Pharmacology of Neurotoxins
- Dendrotoxin (Black mamba): - K+ channel blocker.
- Homobatrachotoxin in Central American poison
arrow/dart frogs. Known to act on voltage-gated
sodium channels
- Homobatrachotoxin in Central American poison
arrow/dart frogs. Known to act on voltage-gated
sodium channels
- Aposematic Warning
- Brightly colored (toxins)
- Brightly colored (toxins)
- Dendrotoxin (Black mamba): - K+ channel blocker.
- What happens to the resting potential when Na+ channels open?
- At rest it is negative on inside compared to outside
- For an
action
potential to
occur, the
cell
membrane
must reach
a threshold
potential
- At threshold, more voltage-gated
Na+ channels open, allowing Na+
to diffuse rapidly into the cell:
DEPOLARIZATION
- At the peak of the action potential, Na+ voltage-
gated channels begin to close, and K+ voltage-gated
channels open in response to the positive
membrane potential. This returns the membrane
toward resting potential: REPOLARIZATION
- The K+ voltage-gated channels remain open slightly longer
than required, and the membrane potential goes below
resting. This results in: HYPERPOLARIZATION
- The K+ voltage-gated channels remain open slightly longer
than required, and the membrane potential goes below
resting. This results in: HYPERPOLARIZATION
- At the peak of the action potential, Na+ voltage-
gated channels begin to close, and K+ voltage-gated
channels open in response to the positive
membrane potential. This returns the membrane
toward resting potential: REPOLARIZATION
- At threshold, more voltage-gated
Na+ channels open, allowing Na+
to diffuse rapidly into the cell:
DEPOLARIZATION
- For an
action
potential to
occur, the
cell
membrane
must reach
a threshold
potential
- Neurons generate action potentials: rapid changes
- Muscles
- Properties of Muscle Tissue
- Contractility
- Excitability
- Extensibility
- Elasticity
- 3 Muscle Types
- Skeletal, Cardiac, Smooth
- Striated v Non striated (smooth)
- Voluntary v Involunatry
- Uni- v Multinucleate
- Striated v Non striated (smooth)
- Skeletal, Cardiac, Smooth
- Contractility
- Muscles contract/work against resistance
- Origin - not moving
- Insertion- moving
- Origin - not moving
- Motor Units
- neuron and muscle cell it excites
- we want smaller motor units!
- Polio attacks motor unit of spine
- Myograph
- fused tetanus- smooth steady contraction of a muscle
- Warming up and muscle strength
- Treppe
- Stair step effect - need to warm up muscles- generate more tension
- release of calcium - buildup!
- release of calcium - buildup!
- Stair step effect - need to warm up muscles- generate more tension
- Treppe
- fused tetanus- smooth steady contraction of a muscle
- neuron and muscle cell it excites
- Exercise and Muscle Contration
- Isometric
- Tension but no load movement
- Tension but no load movement
- Isotonic
- Concentric: muscle shortens
- Eccentric: muscle lengthens
- Eccentric: muscle lengthens
- Concentric: muscle shortens
- Isometric
- Energy Sources (all working at once)
- direct phosphorylation
- Anaerobic Pathway
- Glycolosis- 60 seconds
- Glycolosis- 60 seconds
- Aerobic pathway
- Hours
- oxygen required
- Hours
- creatine used to make atp- not a really source 15 seconds
- Anaerobic Pathway
- direct phosphorylation
- Skeletal Muscle Fiber Tissue
- genetically determined
- Fast twitch (sprinting muscles) tire quickly
- Fast twitch Type II A (combo)
- Fast twitch (sprinting muscles) tire quickly
- slow twitch- how fast myosin heads contract- dark, myoglobin (oxygen carrying)
- genetically determined
- Muscle Homeostasis
- Atrophy- muscles shrink
- cast, stomach wraps
- cast, stomach wraps
- Hypertophy
- HUGE MUSCLES
- HUGE MUSCLES
- Atrophy- muscles shrink
- Muscle Malfunctions
- Fatigue
- Depletion of ATP
- Insufficent O2 or glycogen
- Lactic Acid and ADP buildup
- Insufficent ACh from motor neurons
- Decline of Calcium
- Central Fatigue
- Central Fatigue
- Decline of Calcium
- Insufficent ACh from motor neurons
- Lactic Acid and ADP buildup
- Insufficent O2 or glycogen
- Depletion of ATP
- Spasms
- Involuntary twitching
- Chemical or pschological
- cramps and tics
- Charley Horse - leg cramps
- Charley Horse - leg cramps
- cramps and tics
- Chemical or pschological
- Involuntary twitching
- Rigor Mortis
- 3-4 hrs post death
- 12 hr - max stifness
- dissipates at 48-60 hours
- dissipates at 48-60 hours
- 12 hr - max stifness
- 3-4 hrs post death
- Fatigue
- Properties of Muscle Tissue
- Chemicals
- ATP, Calcium, Na, K, ADP
- ATP, Calcium, Na, K, ADP
- Role of Calcium
- acetylcholine
- acetylcholine
- Sensory Mechanisms
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