File - Serrano High School AP Biology
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Transcript File - Serrano High School AP Biology
Animal Form & Function
Physiology
AP & Pre-AP Biology
Serrano High School
Nerve Impulse Transmission
Resting potential
More negative inside cell than outside
Why?
Large negatively charged proteins & nucleic
acids
Na+/K+ pumps maintain high [Na+] outside
cell and high [K+] inside cell
Nerve Impulse Transmission
Resting potential
Membrane potential = -70 mV
Nerve Impulse Transmission
Depolarization
Stimulus causes Na+ gates to open
Na+ rushes into cell
Nerve Impulse Transmission
Repolarization
Na+ gates close
& K+ gates open
K+ rushes out of
cell
High [Na+] inside
cell
High [K+]
outside cell
Nerve Impulse Transmission
Hyperpolarization
K+ gates slow to close
More K+ moved out
than necessary
Nerve Impulse Transmission
Refractory
period
Na+/K+ pumps
move
Na+ out of cell
K+ into cell
Restores resting
potential
distribution of
Na+ and K+
Transmission Across a Synapse
Synapse
Gap between neurons
Transmission Across a Synapse
Stimulus reaches synaptic end bulb
Transmission Across a Synapse
Ca2+ gates open
Ca2+ enters end bulb
Transmission Across a Synapse
Vesicles with neurotransmitter
migrate to presynaptic membrane
Transmission Across a Synapse
Vesicle fuses with presynaptic
membrane
Transmission Across a Synapse
Neurotransmitter released into
synaptic cleft
Transmission Across a Synapse
Neurotransmitter diffuses across
cleft
Transmission Across a Synapse
Neurotransmitter binds to receptor
protein
Transmission Across a Synapse
Postsynpatic neuron depolarizes
Muscle Contraction
Sliding filament model
Muscle Contraction
Sliding filament model
Depolarization of muscle causes
sarcoplasmic reticulum to release Ca2+
Muscle Contraction
Sliding filament model
Ca2+ exposes binding sites on actin
Myosin heads bind to actin
Cross bridges form
Muscle Contraction
Sliding filament model
Myosin heads lose ADP + P
Myosin heads change shape
Actin pulled toward center of sarcomere
Muscle contracts
Muscle Contraction
Sliding filament model
ATP binds to myosin heads
Cross bridges break
Muscle relaxes
Muscle Contraction
Sliding filament model
Steroid Hormone
Steroid hormone
enters cell
Steroid Hormone
Steroid hormone
enters cell
Binds to receptor
Steroid Hormone
Steroid hormone
enters cell
Binds to receptor
Hormonereceptor complex
enters nucleus
Causes
transcription
DNA transcribed
RNA translated
Protein Hormone
Protein hormone
too big to enter cell
Protein Hormone
Protein hormone
too big to enter cell
Binds to receptor
Protein Hormone
Protein hormone
too big to enter cell
Binds to receptor
Activates enzyme
Protein Hormone
Protein hormone
too big to enter cell
Binds to receptor
Activates enzyme
Enzyme used to
make cyclic AMP
Protein Hormone
Protein hormone
too big to enter cell
Binds to receptor
Activates enzyme
Enzyme used to
make cyclic AMP
Cyclic AMP
targets cell
responses
Kidney
Filtration
Formation of
filtrate
Waste, nutrients,
water, ions,
proteins move
from the blood
into the Bowman’s
capsule
Kidney
Reabsorpton
Nutrients, ions, &
water move from
filtrate back into
blood
Kidney
Secretion
Ions & wastes
more from the
blood into the
filtrate
Kidney
Bowman’s capsule
Filtrate production
Blood pressure forces
small solutes, water &
ions from blood into
capusule
Kidney
Proximal convoluted
tubule
Reabsorption of water,
ions, and all organic
nutrients
Kidney
Loop of Henle
Descending limb
Water reabsorbed
Wall permeable to water
but not solutes
Kidney
Loop of Henle
Ascending limb
Wall impermeable to
water and solutes
Cells actively pump Na+
and Cl- out of tubular
fluid
Kidney
Distal convoluted
tubule
Secretion of ions, acids,
drugs, toxins
Variable reabsorption of
water and Na+
Kidney
Collecting duct
Variable reabsorption of
water and ions
Variable secretion of
water and ions
Balancing act homeostasis