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How Much Mitochondria Is In Muscle Cells? (Top Answer)

The powerhouse of cells is the mitochondria. They provide the necessary energy for muscles cells to function. The mitochondria, which are cells organelles that link to the membrane, work together to produce enough chemical energy to power the cell’s biochemical reactions. A small molecule known as adenosine Triphosphate stores the chemical energy generated by mitochondria. Aerobic respiration is how mitochondria release energy. As you may know energy (ATP) is a basic requirement for muscle function such as contraction and relaxation Mitochondria are the part of the cell that produces ATP which the cell can then use as energy to do work 🙈 Muscle cells require a lot of ATP to carry out contraction and this is why a large number of mitochondria are required to produce this ATP 👍 [1]
Mitochondrion (plur: mitochondria) – energy converter, determinator, generator (of reactive oxygen chemicals), enhancer, provider of genetic history and, controversially, an aid to boost the success rate in infertility treatment.Mitochondria are organelles that are virtually cells within a cell. Their origins are thought to have been billions years ago, when a bacteria cell visited a host cells. The bacterial cell was not digested and stayed on in symbiotic relationship.A true story of a visitor that stayed on and on……for ever. As with many guests, the guest bacteria contributes some to the keep. The mitochondrion certainly makes sure it is present. You are here addition to the features mentioned below mitochondria also take part in reactions Concerning fatty acid metabolism and biosynthesis of haemoglobin, we thank Shelita Ortiz, Kota Kinabalu Malaysia, for her observations. [2]
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Mitochondria, fascinating organelles that regulate many vital cellular processes, are amazing. Skeletal muscle physiology. Indeed, they play central roles in muscle cell metabolism, energy supply, the regulation of energy-sensitive signalling pathways, reactive oxygen species production/signalling, calcium homeostasis and the regulation of apoptosis. So it is not surprising that mitochondrial dysfunction has been linked to a wide range of conditions and adverse events. Affecting skeletal muscle health. This includes the disuse-induced skeletal muscular atrophy, muscle wasting due to sepsis, cachexia, obesity, insulin-resistance, pathology-specific muscles atrophy and dysfunction in chronic obstructive lung disease and amyotrophiclateral sclerosis, among others. While the importance of normal mitochondrial function is well recognized for muscle physiology, there are important aspects of mitochondrial biology that are still poorly understood/investigated in the highly specialized muscle tissue. This covers mitochondrial dynamics (fusion, fission), morphology, as well as processes that control mitochondrial quality (mitophagy). It is crucial to understand the roles of mitochondrial in muscle pathophysiology as well as their significance for skeletal muscle physiology by identifying the mechanisms responsible. This research topic aims to gather key findings, discoveries, and advances in mitochondrial biology, both in diseased and healthy muscle cells. Reviewers are invited to contribute mini-reviews and perspectives as well as research articles or short communications. Tiffaney from Sanhe in China edited this article 80 days ago. [3]
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Evidence of the underlying mechanism emerged when the scientists studied in greater depth the differentiation of stem cells into muscle cells: “In parallel with the slow-down in the Dlk1-Dio3 gene cluster, we noted an increase in two non-coding microRNAs, namely miR-1 and miR-133a,” says Böttger. In the experiments, miR-1a was turned off in muscle cells. This allowed for the identification of individual elements within the mega gene cluster. “This is a strong indication that miR-1 and miR-133a prevent the formation of the mega gene cluster,” says Böttger. “If both microRNAs are absent, the mega gene cluster remains active. In fact, we then observed a decrease in mitochondrial genes and atypical mitochondria.” (emended by Mikala Boswell on December 5, 2020) [4]
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Refer to the Article

  1. https://www.superprof.co.uk/resources/questions/science/explain-why-muscle-cells-are-associated-with-a-large-number-of-mitochondria.html
  2. https://bscb.org/learning-resources/softcell-e-learning/mitochondrion-much-more-than-an-energy-converter/
  3. https://www.frontiersin.org/research-topics/3331/mitochondria-in-skeletal-muscle-health-aging-and-diseases
  4. https://www.mpg.de/11997935/muscle-cells-mitochondria
Kelly-Anne Kidston

Written by Kelly-Anne Kidston

I am a writer of many words, from fiction to poetry to reviews. I am an avid reader and a lover of good books. I am currently writing my first novel and would love to find some beta readers who are interested in getting an early look.

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