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Mitochondria likely originated from a symbiotic relationship between a primitive eukaryotic cell and an aerobic prokaryotic cell, possibly an ancestor of modern-day alphaproteobacteria. This symbiosis likely occurred through endosymbiosis, where the prokaryotic cell was engulfed by the eukaryotic cell but not digested, leading to a mutually beneficial relationship where the host cell provided a protected environment and the prokaryotic cell provided ATP through aerobic respiration.
Endosymbiotic theory explains it.It explains the origin of eukaryotic cells.
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Abnormal mitochondria are likely to be correlaated with a disturbance of what in the cell?
Abnormal mitochondria are likely to be correlated with a disturbance in cellular energy production, as the mitochondria play a key role in generating energy in the form of ATP through oxidative phosphorylation. When mitochondria are dysfunctional, it can lead to a decrease in ATP production and various cellular processes may be affected, causing issues in cell function and overall health.
A cell's ability to replenish its ATP stores has been diminished by a metabolic poison What organelle is most likely to be affected?
The mitochondria is most likely to be affected since it is the main organelle responsible for generating ATP through cellular respiration. If the cell's ability to replenish ATP is diminished, then the mitochondria may be impaired in its function.
The stongest evidence for the endosymbiotic origin of eukaryotic orgelles is the homology between extant prokaryotes and?
...eukaryotic organelles, such as mitochondria and chloroplasts. These organelles have their own DNA, ribosomes, and are similar in size to prokaryotes like bacteria. Additionally, the double membrane structures of mitochondria and chloroplasts resemble what is seen in prokaryotic cells.
Compared to a skin cell a muscle cell is likely to have more?
A muscle cell is likely to have more mitochondria to support its energy demands for contraction, more myofibrils for muscle function, and a well-developed network of sarcoplasmic reticulum to regulate calcium levels for muscle contractions.
What is more likely to happen when mitochondria malfunction?
When mitochondria malfunction, there can be a decrease in energy production, leading to cellular damage and even cell death. This can result in various health problems such as neurodegenerative diseases, metabolic disorders, and muscle weakness.
What is the origin of mitochondria and chloroplast?
They are origined from bacteria.They were evolved through endosymbiotic living.
6. What is believed to be the evolutionary origin of mitochondria?
A bacteria that moved into a cell and stayed alive.
Why did the mitochondria originate?
Mitochondria likely originated from a symbiotic relationship between early eukaryotic cells and aerobic bacteria. This symbiosis allowed for more efficient energy production through aerobic respiration, providing a survival advantage which led to the integration of the bacteria as mitochondria within eukaryotic cells.
Do mitochondria and choloroplast independently?
Mitochondria and chloroplasts are thought to have evolved independently. While they share some similarities, such as their own DNA and ability to generate energy in the form of ATP, their origin and function differ. Mitochondria likely originated from ancient bacteria that were engulfed by primitive eukaryotic cells, while chloroplasts are believed to have evolved from photosynthetic cyanobacteria that were also engulfed by eukaryotic cells.
What kind of cells would likely have large numbers of mitochondria in humans Why?
Mitochondria are the power houses. Active cells have many
Which organism can convert light energy into chemical energy?
Plants photosynthesize. There are some non-plant species who've photosynthetic organelles within their cells, likely to have originated by the endocytosis of photosynthetic microorganisms (similar to the origin of mitochondria).Autotrophs
What is the most likely result of damage to mitochondria?
decrease in ATP PRODUCTION
What organelle is most likely to be altered in oxidative phosphorylation disorders?
The mitochondria are the organelles most likely to be altered in oxidative phosphorylation disorders. These disorders often affect the electron transport chain within the mitochondria, leading to a decrease in ATP production and overall cellular energy deficiency.
What will most likely be the result if all of the mitochondria are removed from plant cell?
the dick
What is most likely results of damage to the mitochondria in a plant?
A decrease in ATP production
What is the most likely result of damage in the mitochondria in a plant?
A decrease in ATP production
Abnormal mitochondria are likely to be correlaated with a disturbance of what in the cell?
Abnormal mitochondria are likely to be correlated with a disturbance in cellular energy production, as the mitochondria play a key role in generating energy in the form of ATP through oxidative phosphorylation. When mitochondria are dysfunctional, it can lead to a decrease in ATP production and various cellular processes may be affected, causing issues in cell function and overall health.
