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∙ 7y agoLikely mitochondria as muscles cells require more energy to do work
Jimmy Mueller
It depends on the function of the cell. For example: the muscle cells require a great deal of energy and so require many mitochondria per cell.
Yes, that's correct. Cells in different tissue types have specialized functions, so they may require different organelles to carry out those functions efficiently. For example, muscle cells have many mitochondria to generate energy for muscle contraction, while skin cells have a high number of vesicles for secretion of oils and proteins.
The sarcoplasm is found within muscle cells, specifically in the cytoplasm. It surrounds the myofibrils and other organelles within the muscle cell and plays a crucial role in various cellular processes related to muscle contraction and metabolism.
No, muscle cells do not have chloroplasts. Chloroplasts are found in plant cells and some protists, where they are responsible for photosynthesis. Muscle cells generate energy through other organelles, such as mitochondria.
Skeletal muscle cells,cardiac muscle cells,sperm cells
in a cell, all organelles are present, maybe you need to specify your question
When a greater number of motor units are present in a muscle and are able to be simultaneously stimulated causing an increase in muscle force (Sherwood, and Kell 271-272).
Organelles
organelles
Mitochondria
It depends on the function of the cell. For example: the muscle cells require a great deal of energy and so require many mitochondria per cell.
organelles
Myofibrils
Answer There's no such thing. Muscle is muscle. There are no "lean" muscles or "bulky"muscles. Some people have a greater muscle mass, some have less muscle mass- but that mass is muscle. A pound of muscle is going to require energy to stay around. If you have a greater muscle mass, you'll have a greater metabolism. He's right you know. This is really splitting hairs!
mitochondia is greater in number in skeletal muscle cells.
Yes, ribosomes are found in muscle tissue. They play a crucial role in protein synthesis, which is essential for muscle function and growth. Ribosomes are present in all cells, including muscle cells, where they translate genetic information into proteins.
mitochondria