Concept explainers
To sketch: A longitudinal section of a sarcomere in a relaxed state and label the Z lines, thin filaments, and thick filaments.
Introduction: Sarcomere is the smallest unit of a muscle fiber. The filaments of actin and myosin are constitutively known as a sarcomere. Multiple numbers of sarcomere are joined together to form the structure of a muscle. They join together with each other in the end-to-end direction, resulting in the formation of “myofibril”.
To determine: The actin filaments in the given figure.
Introduction: Muscles consists of various units which constitutively results in the locomotion
of the organism. The functioning of muscles is carried out by the process of muscle contraction, which is a vast process and guided by a number of steps.
To determine: The myosin filaments in the given figure.
Introduction: Muscles consists of various units which constitutively results in the locomotion of the organism. The functioning of muscles is carried out by the process of muscle contraction, which is a vast process and guided by a number of steps. The skeletal system and muscle tissues act together to produce locomotion in an individual.
Want to see the full answer?
Check out a sample textbook solutionChapter 40 Solutions
Biology (MindTap Course List)
- Identify the structure highlighted in green:arrow_forwardLabel the molecular components of the myofilaments from a close up view of a model of a relaxed sarcomerearrow_forwardSkeletal muscle is described as striated. What are the lighter, thinner stripes noted under the microscope? Group of answer choices troponin actin myosin dystrophin Rather than innervating individual muscle fibers, motor neurons often innervate two or more muscle fibers. The motor neuron and the muscle fibers it innervates are together called a: Group of answer choices motor unit myofibril muscle fascicle motor fascia Fast glycolytic muscle fibers allow for relatively quick ATP energy production by splitting glucose (but eventually leads to fatigue), a process described as: Group of answer choices fermentation aerobic pathway anaerobic pathway ATP reserve usearrow_forward
- Label the molecular components of the myofilaments from a close up view of a model of a relaxed sarcomerearrow_forwardPlease help with the labeling of organization of skeletal muscle: Here's what I found: fascicle muscle fibers nuclei sarcomere sarcolemma myofibril M line I band A band Z disc H zone Thick filament Thin filament perimysium sarcoplasmic reticulum epimysiumarrow_forwardLabel the sacromere regions and myofilaments in the relaxed sarcomere modelarrow_forward
- Describe the organization of myosin, actin, tropomyosin, and troponin molecules in the thick and thin filaments?arrow_forwardDescribe the following regions/structures of a sarcomere. (Fig 12.5) A band - striated patterns of light and dark muscle fibers; scatters light unevenly; uses the entire length of thick filaments; the center of the band uses only thick filaments H zone I band M line Z discarrow_forwardDiscuss the difference between thick and thin filaments ?arrow_forward
- One of the primary characteristics of all muscle tissue is contractility, the ability to shorten (contract) and lengthen (relax). You've identified the various components of a myofibril above. Now, use the table below to indicate what occurs to each band, line, or zone when the muscle contracts vs. relaxes. What occurs to this region / structure during contraction/relaxation? Region / Structure A-Band H-Band I-Band M-Line Z-Line Zone of Overlap Sarcomere No change Shortens Lengthens Muscle Contraction Muscle Relaxationarrow_forwardCan you match the sacromere anatomy with the proper answer from the list below the table graph? Sarcomere Anatomy Description/Reaction Thin Filaments ? Thick Filaments ? A Band ? I Band ? M Line ? H Zone ? Z Disc ? A) G-Actin, F-Actin, Troponin, Tropomyosin B) Myosin C) Bisected by the M Line, this area shows only the thick filaments without any thin filamentous overlap D) The point of origin for myosin filaments found in the center of the sarcomere E) An area in the center of the sarcomere marked by the entire length of the thick filaments F) A space between sarcomeres with the z-disc in the center; this region shows Actin's anchorage points and extension without myosin overlap G) Anchoring point for the thin filamentsarrow_forwardIf you were to watch muscle tissue contract: Under a light microscope, would you see the muscle fibers get narrower, or the striations get thinner? Explain. At the EM level, focusing on one sarcomere, you would be able to see a region of thick filaments overlapping two regions of thin filaments. Use the structure of the thick filaments to explain how ONE region of thick filaments is able to pull in microfilament in two opposite directions (both toward the center of the sarcomere).arrow_forward
- Human Physiology: From Cells to Systems (MindTap ...BiologyISBN:9781285866932Author:Lauralee SherwoodPublisher:Cengage Learning