i.sensory systems ii.skeletal muscles a. structure b. contraction c. nerve input iii.skeletal...
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I. Sensory Systems
II. Skeletal MusclesA. Structure
B. Contraction
C. Nerve Input
III. Skeletal Systems
IV. Preparation for final
Lecture 15 – Ch.50: Muscular & SensoryLecture 15 – Ch.50: Muscular & Sensory
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What is a Sensory Receptor?
Specialized cells that signals when stimulated
Receptors named after stimuli they respond to:
1) Thermoreceptors: Heat / Cold
2) Mechanoreceptors: Motion; pressure; gravity
3) Photoreceptors: Light (photons)
4) Chemoreceptors: airborne/waterborne molecules
5) Nociceptors: Pain (chemical release)
Sensory Input
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Sound:Sensory Input
Sound waves are vibrations in fluid (air, water)
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Sound: Ear: Sound Electrical Signal
1) Sound wave enters ear (auditory canal)
3) Vibration passes to middle ear bones
2) Tympanic membrane vibrates
Sensory Input
Outer ear Middle ear Inner ear
bones ofmiddle ear
auditorycanal
vestibular system(detects head
movementand gravity)
auditory nerveto brain
topharynx
tympanicmembrane
cochlea
auditory tube(Eustachian tube)
4) Inner ear (cochlea) converts vibrations to electrical signal
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Sound:Sensory Input
5) Inside the cochlea, hair cells are between the basilar and tectorial membranes – vibrations cause the basilar membrane to vibrate, bending hairs against the tectorial membrane.
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Two parts of sound are volume and pitch – which is detected by the basilar membrane?
1. Both volume and pitch
2. Volume only
3. Pitch only
4. Neither
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Vision:Eye: Light Electrical Signal
Sensory Input
Some animals only sense light/darkMany arthropods have a compound eye, where many images are pieced together into a visual mosaic
Compound eyes
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Vision:
Eye placement changes vision:• Forward-facing: many carnivores that need depth perception
• Widely spaced: herbivores - allows better predator detection
Sensory Input
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Vision:Eye: Light Electrical Signal
Sensory Input
Mammals: collects & focuses light waves; transmits signal to brain
1) Light enters via cornea (transparent covering), through the pupil (opening in center of iris)
2) The iris is a pigmented ring of muscle that controls light entry
3) Light is focused on the retina (sheet of photoreceptors) by the lens (transparent surface)
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Vision: Sensory Input
4) Muscles attached to lens contract to change the lens shape and focus image on the fovea for any visual distance
retina
Close object, lensfattens to focuson retina.
Distant object,lens thins tofocus on retina.
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Vision: Sensory Input
Abnormally long eyeball: the image is focused in front of the retina: nearsightedness
Abnormally short eyeball: the image is focused behind the retina: farsightedness
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Vision:Eye: Light Electrical Signal
Rods: Dim-light vision
(many but scattered)
Cones: Color vision
(Red/green/blue)
5) Light on the retina triggersreceptors; optic nerve excited
Sensory Input
fovea
blindspot
The blind spot is where the optic nerve connects to eyeball
No photoreceptors, so images disappear
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Which animals would see better at night?
1. Those with more rods
2. Those with more cones
3. Those with larger irises
4. Those with longer eyeballs
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Odor/Taste:
1) Chemicals enter nasal cavity;bind to receptors (olfactory epithelium)
2) Olfactory bulb (in brain) excited
Nose / Tongue: Chemical Electrical Signal
Sensory Input
olfactorydendrites
olfactoryepithelium
nasalcavity
air withodor molecules
olfactory structure of brain
bone
nasal cavity
olfactoryreceptors
mucus layer
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Odor/Taste:
1) Dissolved chemicals enter taste buds on tongue (via taste pore)
2) Chemicals bind with receptors; stimulate nerves
• Five primary tastes:
• Sweet / Salt / Bitter / Sour / Umami
• Olfaction enhances taste
Nose / Tongue: Chemical Electrical Signal
Sensory Input
The human tongue
papillae
taste receptor cells
Taste bud
nerve fibersto brain
microvillitaste pore
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Which is a correct statement about chemoreceptors?
1. Individual chemoreceptors detect specific tastes
2. Individual chemoreceptors detect specific odors
3. Individual chemoreceptors are specific to both taste and odor
4. Each chemoreceptor can detect more than one taste/odor
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Pain is a specialized Chemical Sense:
1) Damaged cells spill chemicals
2) Nociceptors detecttissue damage
Sensory Input
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Self-Check
Sensation Type(s) of receptor; Description of sense
Touch
Sound
Sight
Taste
Smell
Pain
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Some senses are unfamiliar to humans
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Other Senses:
Echolocation:
Animal emits pulse -interprets returning signal
Electrolocation:Animal
produceselectrical field;
interpret distortion
in field
Sensory Input
Magnetic Field
Detection:
Animals detect and
orient based on earth’s
magnetic field
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Muscular and skeletal systems
Muscles power movement by contracting
Bones provide framework for muscles
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Muscle Tissue (Muscle = “little mouse”):
• Exerts force by
contracting
Chemical energy (ATP) Mechanical EnergyTransformation
Muscles
Movement due to actin microfilaments and myosin strands
Slide past one another, change cell shape
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connective tissuetendon (to bone)
Skeletal muscleMuscle fiber(muscle cell)
Myofibril(contains thin and thick filaments)
bundle ofmuscle cells
nerve andblood vessels
Skeletal Muscles
• Humans > 700 unique skeletal muscles
• Muscle connected to bones by tendons
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Cross section of fiberm
uscl
e fib
er
T tubules
plasmamembrane
myofibril
sarcoplasmicreticulum
Skeletal Muscles
- Each muscle cell runs length of muscle
- Multinucleate
- Made up of myofibrils
Contractile cylinders of actin and myosin
- Each myofibril surrounded by sarcoplasmic reticulum
- Fluid with high calcium levels
- T-tubules in plasma membrane relay signals
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Myofibril
myofibril
sarcomere
thick filamentthin filament
Z lines
Skeletal Muscles
Myofibrils of “thick” and “thin” filaments.
Each filament is made of protein strands.
Filaments arranged in sarcomeres
Separated by Z-lines of fibrous protein
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Thick and thin filaments
tropomyosin
thin filament
thick filament(myosin)
myosin heads
accessoryproteins
troponin
actin
Skeletal Muscles
Thick filaments: made mostly of myosin, have small moveable “heads”
Thin filaments: primarily actin, have points to which the myosin heads temporarily attach
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binding sites
thick filament
thin filament
ATP
ADP
myosin head
Skeletal Muscles
Each actin subunit has binding site for myosin head
Contraction exposes binding sites, allowing filaments to bind to one another
Myosin heads then repeatedly bend, pull, release, and reattach (using ATP-energy)
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Sliding filaments shorten each sarcomere
Skeletal Muscles
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Neuromuscular junctions between axons and fibers
All or nothing response:
Skeletal muscle excited
All sarcomeres respond
Skeletal Muscles
postsynapticmembrane
axon of motor neuronsynaptic terminal
synaptic vesicles
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Strength of Muscle Contraction # of Fibers Stimulated
Motor Unit: A single motor neuron and all the muscle fibers innervated by it
Skeletal Muscles
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How do you strengthen a muscle contraction?
1. Engage more muscle fibers
2. Contract each sarcomere further
3. Contract more sarcomeres in a muscle fiber
4. Activate additional myofibrils
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Action potential travels through T-channels and opens Ca++ channels in sarcoplasmic reticulum
These ions allow binding of thin and thick fibers
Ca++ is pumped back out after action potential ends
Unless you’re dead
Skeletal Muscles
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You cannot add muscle fibers
You can add more myofibrils
Skeletal Muscles
muscle
Muscle fiber(muscle cell)
Myofibril
bundle ofmuscle cells
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Hydrostatic skeleton
Fluid provides support
Muscles contract and move fluid
Skeletal System
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Exoskeleton
Hard shells cover outside of body
Muscles contract and move frame at joints
Skeletal System
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Endoskeleton
Internal framework - least common skeleton type
Muscles contract and move frame at joints
Skeletal System
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Movement of bones
Joints are where two bones meetLubricated by cartilage
Attached by ligaments
Muscles are attached to bone on either side of the jointAttached by tendons
LigamentsOrigin - attachment to still bone
Insertion - attachment to moving bone
Vertebrate Skeletons
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Things To Do After Lecture 15…Reading and Preparation:
1. Re-read today’s lecture, highlight all vocabulary you do not understand, and look up terms.
2. Ch. 50 Self-Quiz: #2, 3, 4 (correct answers in back of book)
3. Read chapter 50, focus on material covered in lecture (terms, concepts, and figures!)
4. Prepare for final exam!!!
“HOMEWORK” (NOT COLLECTED – but things to think about for studying):
1. Describe the types of sensory information processed by humans – which receptors are responsible for each type?
2. What is the problem in the eye of someone who is near-sighted versus someone who is far-sighted? How do corrective lens fix the problem?
3. Explain how a muscle contracts – include the units down to the sarcomere and their place in a muscle fiber.