Sensory and Motor Mechanisms

Slides:

Advertisements

Similar presentations

Muscle Physiology Chapter 11. Connective Tissue Components Muscle cell = muscle fiber Endomysium – covers muscle fiber Perimysium – binds groups of muscle.

Advertisements

Muscles and Muscle Tissue

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Concept 50.5: The physical interaction of protein filaments is required.

Skeletal Muscle Contraction

Chapter 24 …. a little anatomy and physiology. Levels of organization in the vertebrate body.

Muscles n Skeletal muscle organization and how it contracts.

© 2012 Pearson Education, Inc. Lecture by Edward J. Zalisko PowerPoint Lectures for Campbell Biology: Concepts & Connections, Seventh Edition Reece, Taylor,

Muscular system SKELETAL MUSCLE Skeletal muscle is made up of hundreds of muscle fibers –Fibers consists of threadlike myofibrils –Myofibrils composed.

Motor mechanisms. Keywords (reading p ) Bundle, fiber, myofibril, sarcomere Z-line, thick filament, thin filament Actin, myosin, sliding filament.

Muscle Contraction. Muscle Movement Muscle fiber must be stimulated: – By an electrical signal called muscle action potential (AP) – Delivered by motor.

Warm-Up What is the function of:

Muscle Cells & Muscle Fiber Contractions

Cardiac Muscle Involuntary –heart only Contracts & relaxes continuously throughout life –Contracts without nervous stimulation! –A piece of cardiac muscle.

11.2.Muscles and movement. State the roles of bones, ligaments, muscles, tendons and nerves in human movement. Label a diagram of the human elbow joint,

AP Biology Nervous Systems Part 5.

AP Biology Muscles & Motor Locomotion Why Do We Need All That ATP?

Eyes, Ears & ….. Sensory and Motor Mechanisms. Sensory Receptors Mechanoreceptors: stimulated by physical stimuli (i.e. pressure, touch, stretch, motion,

Muscles. Smooth muscle Found in the walls of hollow organs and the blood vessels Lack striations Contain less myosin Cannot generate as much tension as.

Motor mechanisms.

Chapter 11 Physiology of the Muscular System. Introduction Muscular system is responsible for moving the framework of the body In addition to movement,

AP Biology Nervous Systems Part 5. Important concepts from previous units: Conformational shape change triggers a transduction pathway leading to response.

Chapter 38: Protection, Support, Movement: Skin, Skeleton, and Muscle.

Chapter 49: Sensory & Motor Mechanisms

Sensory and Motor Mechanisms – chpt 49-. I. Anatomy & physiology of Muscular system n A. 3 types of muscle tissue –1. skeletal muscle aka striated muscle–

Interaction of thick & thin filaments __________________ –_____________________________________ _____________________________________ –_____________________________________.

____ Chapter 49 ~ Sensory and Motor Mechanisms ( Just focusing on motor mechanisms ) Motor Mechanisms.

Figure Ball-and-socket joint Head of humerus Scapula Hinge joint Humerus Ulna Radius Pivot joint.

Sliding Filament.

Filaments Resting state Electrical impulse (Action Potential) reaches axon terminal.

Synapse – The site of connection between a neuron and a cell. Neurotransmitter – A chemical released at the neuron’s synapse that communicates with the.

AP Biology Nervous Systems Part 5.

Neuromuscular Junction and Major Events of Muscle Contraction Quiz Review.

Lecture #21 Date ____ n Chapter 49 ~ Sensory and Motor Mechanisms.

Chapter 47 Effectors (muscles)

Muscle Contraction. 1.Acetylcholine (Ach) is released from the axon terminal (nerve) into the synaptic cleft and binds to Ach receptors in the sarcolemma.

Muscle voluntary, striated involuntary, striated auto-rhythmic involuntary, non-striated evolved first multi-nucleated digestive system arteries, veins.

AP Biology Thick filaments: myosin  Protein  myosin molecule  long protein with globular head bundle of myosin proteins: globular heads aligned.

Concept 50.4: Similar mechanisms underlie vision throughout the animal kingdom Many types of light detectors have evolved in the animal kingdom.

Muscular Tissue Skeletal Cardiac Smooth

Movement Chapter 30.

Chapter 39 Sections 1 and 2 ONLY

Chapter 49: Sensory & Motor Mechanisms

Sensory and Motor Mechanisms

Topic 11.2 Movement Bone and Muscle.

Muscles and Movement.

Muscles & Motor Locomotion Why Do We Need All That ATP?

Muscles & Motor Locomotion Why Do We Need All That ATP?

____ Chapter 49 ~ Sensory and Motor Mechanisms

NOTES: The Muscular System (Ch 8, part 2)

THE MUSCLE CELL.

Chapter 49: Sensory and Motor Mechanism

Muscle Contraction

Warm-Up What is the function of:

Muscles & Motion.

AP Biology Nervous Systems Part 5

Chapter 49 –Sensory and Motor Mechanisms

Muscle Contraction

Warm-Up What is the function of:

AP Biology Nervous Systems Part 5.

Warm-Up What is the function of:

Types of Muscle Skeletal Striated Voluntary Multinucleated Smooth

Sliding Filament Theory

Warm-Up What is the function of:

Warm-Up What is the function of:

Eyes, Ears & ….. Sensory and Motor Mechanisms.

AP Biology Nervous Systems Part 5.

Presentation transcript:

Sensory and Motor Mechanisms Chapter 50 Campbell Biology – 9th Edition

You must know The location and function of several types of sensory receptors How skeletal muscles contract Cellular events that lead to muscle contraction

Sensory Receptors ____________________________: physical stimuli – pressure, touch, stretch, motion, sound ____________________________: detect heat/cold ____________________________: transmit solute conc. info – taste (gustatory), smell (olfactory) ____________________________ receptors: detect EM energy – light (photoreceptors), electricity, magnetism _____________ receptors: respond to excess heat, pressure, chemicals

Sensation = action potentials reach brain via sensory neurons _________________________: receptor detects a stimulus Sensation = action potentials reach brain via sensory neurons _________________________: information processed in brain

Retina Optic nerve To brain Cone Photoreceptors Rod Neurons Pigmented epithelium Bipolar cell Amacrine Horizontal Optic nerve fibers Ganglion Vision Compound eyes: several thousand ommatidia (light detectors) with its own lens; insects & crustaceans Vertebrates: Rods: sense ___________ Cones: ________________ vision Rhodopsin: light-absorbing ________________ that triggers signal transduction pathway that leads to sight

Muscles always contract Muscles work in antagonistic pairs to move parts of body Biceps contracts Human Triceps relaxes Forearm flexes extends Extensor muscle Flexor Grasshopper Tibia

Skeletal Muscle Structure Bundle of muscle fibers Single muscle fiber (cell) Plasma membrane Nuclei Muscle Myofibril Dark band Sarcomere Z line Light band I band TEM A band 0.5 µm M line Thick filaments (myosin) H zone Thin filaments (actin) Attached to bones by __________ Types of muscle: _____________ (internal organs) _____________ (heart) _____________ (striated) 1 long fiber = single muscle cell Each muscle fiber = bundle of myofibrils, composed of: _________: thin filaments _________: thick filaments

______________: basic contractile unit of the _____________ Sarcomere 0.5 µm Z H A Relaxed muscle fiber I Contracting muscle fiber Fully contracted muscle fiber Z lines – border I band – _______ actin filaments A band – _______ myosin filaments

(Note: Filaments do ________________) Muscle Contraction: Sarcomere 0.5 µm Z H A Relaxed muscle fiber I Contracting muscle fiber Fully contracted muscle fiber Sarcomere relaxed: actin & myosin _____________________ Contracting: Muscle fiber stimulated by ________ ________________ Length of sarcomere is reduced ___________ slides over __________ Fully contracted: actin & myosin completely overlap ________________________________: thick & thin filaments slide past each other to increase overlap (Note: Filaments do ________________)

Muscle fibers only contract when stimulated by a motor neuron Ca2+ released from sarcoplasmic reticulum Mitochondrion Motor neuron axon Synaptic terminal T tubule Sarcoplasmic Myofibril Plasma membrane of muscle fiber Sarcomere ______ is released from the sarcoplasmic reticulum

Synaptic terminal of _________ neuron releases ____________ Muscle fiber _________ ______ released Initiate _____________ of _____________ Ca2+ CYTOSOL SR PLASMA MEMBRANE T TUBULE Synaptic cleft Synaptic terminal of motor neuron ACh

Depolarization of muscle cell releases _________  binds to _________  _______________________ Myosin-binding sites blocked. Myosin-binding sites exposed. Tropomyosin Ca2+-binding sites Actin Troponin complex Myosin- binding site Ca2+

Hydrolysis of ATP by myosin  cross-bridge formed  thin filament pulled toward center of sarcomere Thin filaments Thick filament Thin filament Thick filament Myosin head (low-energy configuration) Cross-bridge binding site Myosin head (high- energy configuration) Actin Myosin head (low- Thin filament moves toward center of sacomere.

Speed of muscle contraction: Fast fibers – brief, rapid, powerful contractions Slow fibers – sustain long contractions (posture)

Problems ALS (Lou Gehrig’s disease): degeneration of motor neurons, muscle fibers atrophy Botulism: block release of acetylcholine, paralyzes muscles Myasthenia gravis: autoimmune disorder, produce antibodies to acetylcholine Calcium deficiency: muscle spasms and cramps Rigor mortis (after death): no ATP to break actin/myosin bonds; sustained muscle contraction until breakdown (decomposition)