100 Examples of sentences containing the common noun "myofibril"

Definition

A myofibril is a slender thread-like structure found in muscle cells that is composed of myofilaments (actin and myosin) and is responsible for muscle contraction. Myofibrils are organized in a specific arrangement to facilitate the contraction of muscle fibers, contributing to the overall function of skeletal and cardiac muscles.

Synonyms

• Muscle fiber
• Myofilament
• Sarcomere

Antonyms

• Relaxation
• Inactivity

Examples

1. The myofibril contracts during physical exercise.
2. Scientists study how the myofibril interacts with other cellular components.
3. Each myofibril is made up of repeating units called sarcomeres.
4. The process of muscle growth involves the increase of myofibril density.
5. Damage to the myofibril can lead to muscle weakness.
6. A healthy diet supports the repair of the myofibril after intense workouts.
7. The myofibril plays a key role in the sliding filament theory.
8. Researchers have discovered new ways to enhance myofibril function.
9. The myofibril arrangement is crucial for effective muscle contraction.
10. Each muscle cell contains hundreds of myofibril structures.
11. The strength of a muscle correlates with the number of myofibril present.
12. During stretching, the myofibril can experience micro-tears.
13. The myofibril is surrounded by the sarcoplasmic reticulum.
14. Increased training can lead to hypertrophy of the myofibril.
15. The myofibril is essential for generating force in muscle tissue.
16. Damage to the myofibril affects overall muscle performance.
17. The myofibril contributes to the striated appearance of skeletal muscle.
18. Researchers are investigating how the myofibril responds to aging.
19. The efficiency of the myofibril is crucial for athletic performance.
20. Understanding the myofibril can help in developing better rehabilitation protocols.
21. The myofibril is composed of thick and thin filaments.
22. The myofibril undergoes changes during the muscle contraction cycle.
23. Each contraction of the myofibril requires ATP.
24. The myofibril can adapt to different types of exercise.
25. Damage to the myofibril can lead to delayed onset muscle soreness (DOMS).
26. The structure of the myofibril is highly organized.
27. The myofibril is a key focus in muscle biology research.
28. Physical therapy often aims to strengthen the myofibril.
29. The interaction between actin and myosin within the myofibril is critical for movement.
30. The myofibril can be visualized using specialized staining techniques.
31. The myofibril density varies among different muscle types.
32. Muscle fatigue can be related to changes in the myofibril.
33. The myofibril is essential for both voluntary and involuntary muscle movements.
34. The health of the myofibril contributes to overall fitness levels.
35. Abnormalities in the myofibril structure can indicate muscle diseases.
36. The myofibril is encapsulated by the endomysium.
37. Each myofibril is aligned parallel to the muscle fiber.
38. The myofibril is involved in both eccentric and concentric contractions.
39. Studies show that the myofibril can adapt to resistance training.
40. The myofibril is critical for the contractile properties of muscle tissue.
41. The integrity of the myofibril is vital for muscle health.
42. The myofibril contributes to the overall strength of a muscle.
43. The myofibril interacts with calcium ions to initiate contraction.
44. Muscle tears can affect the integrity of the myofibril.
45. The myofibril is involved in the force generation mechanism.
46. Understanding the myofibril can help in developing new treatments for muscle disorders.
47. The myofibril is organized into functional units called myofibrils.
48. The performance of an athlete can be influenced by the efficiency of the myofibril.
49. Each myofibril can contract independently of others within the muscle fiber.
50. The myofibril can be visualized using electron microscopy.
51. The structure of the myofibril is crucial for its function.
52. The myofibril undergoes changes during muscle adaptation.
53. The myofibril is central to muscle physiology.
54. The arrangement of myofibril affects muscle contraction speed.
55. The myofibril is surrounded by cytoplasm called sarcoplasm.
56. Damage to the myofibril can lead to severe muscle injuries.
57. The myofibril has a unique architecture that facilitates contraction.
58. The efficiency of the myofibril can be assessed through various tests.
59. The myofibril is essential for the movement of limbs.
60. Myofibril hypertrophy is a common goal in strength training.
61. The myofibril is responsible for the contraction of heart muscle.
62. The myofibril interacts with neurotransmitters to initiate movement.
63. The structure of the myofibril can be affected by genetics.
64. The myofibril is embedded in a complex network of proteins.
65. The number of myofibril can increase with resistance training.
66. The myofibril is involved in the body’s response to stress.
67. The health of the myofibril is essential for athletic recovery.
68. The myofibril is involved in both aerobic and anaerobic activities.
69. The myofibril can be damaged by excessive exercise.
70. The myofibril interacts with the nervous system for coordinated movement.
71. The myofibril is a focal point in muscle regeneration studies.
72. The efficiency of the myofibril can decline with age.
73. The myofibril is crucial for maintaining muscle tone.
74. The myofibril is composed of specialized proteins.
75. Muscle contraction begins when the myofibril is stimulated.
76. The myofibril is essential for maintaining posture.
77. The myofibril can adapt to different types of physical activity.
78. The myofibril is surrounded by a membrane known as the sarcolemma.
79. The number of myofibril increases with consistent training.
80. The myofibril is integral to the muscle's ability to generate force.
81. The myofibril can be affected by nutritional deficiencies.
82. The myofibril plays a role in muscle fiber classification.
83. The myofibril undergoes changes during muscle recovery.
84. The myofibril is essential for explosive movements.
85. The myofibril can be influenced by hormonal changes.
86. The myofibril structure is vital for athletic performance.
87. The myofibril contains contractile proteins that allow movement.
88. The myofibril can be damaged by certain diseases.
89. The myofibril is essential for the functionality of cardiac muscle.
90. Changes in the myofibril can affect overall muscle health.
91. The myofibril can be visualized in muscle biopsies.
92. The myofibril plays a vital role in muscle memory.
93. The myofibril is involved in energy production during contraction.
94. The myofibril can become more efficient with training.
95. The structure of the myofibril is a subject of ongoing research.
96. The myofibril is an important indicator of muscle health.
97. The myofibril can adapt to both endurance and strength training.
98. The myofibril is integral to the body's movement mechanics.
99. The myofibril undergoes various biochemical processes during contraction.
100. Understanding the myofibril is crucial for advancements in sports science.