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In germinating seeds fatty acids are degraded exclusively in the [2008]
- a)proplastids
- b)glyoxysomes
- c)peroxisomes
- d)mitochondria
Correct answer is option 'B'. Can you explain this answer?
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In germinating seeds fatty acids are degraded exclusively in the [2008...
Glyoxysomes are found to occur in the cells of yeast, Neurospora and oil rich seeds of many higher plants. During germination of oily seeds, the stored lipid molecules of sphaerosomes are hydrolysed by the enzyme lipase to glycerol and fatty acids. The long chain fatty acids are then broken down by successive removal of two carbon fragments in the process of (
β
-oxidation).
Peroxisomes are present in all photosynthetic cells of higher plants in etiolated leaf tissue. It is the site of hydrogen peroxide metabolism and glycolate cycle.
Mitochondria is the site of aerobic respiration in eukaryotic cell. It is called power house of the cell.
During the development of chioroplast the first structure to appear is so called proplastid, which has a double membrane.
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In germinating seeds fatty acids are degraded exclusively in the [2008...
Germinating seeds and fatty acid degradation
Germination is the process in which a seed develops into a new plant. During this process, various biochemical changes occur, including the degradation of fatty acids to provide energy for seedling growth. This degradation of fatty acids takes place exclusively in the glyoxysomes.
Glyoxysomes
Glyoxysomes are specialized organelles found in plant cells. They are similar to peroxisomes but have unique enzymes that enable them to carry out specific metabolic processes. Glyoxysomes are particularly involved in the conversion of stored lipids into carbohydrates, a critical step in providing energy for seedling growth.
Fatty acid degradation in glyoxysomes
Fatty acid degradation in glyoxysomes involves a series of enzymatic reactions known as the glyoxylate cycle or the glyoxylate shunt. This cycle allows the conversion of fatty acids into carbohydrates, specifically succinate, which can be used as a carbon source for energy production.
The key steps involved in fatty acid degradation in glyoxysomes are as follows:
1. Activation of fatty acids: Fatty acids are activated in the cytoplasm by the addition of Coenzyme A (CoA) to form acyl-CoA. This process requires ATP.
2. Transport into glyoxysomes: Acyl-CoA is then transported into the glyoxysomes, where the degradation process occurs.
3. Beta-oxidation: Inside the glyoxysomes, the acyl-CoA is subjected to beta-oxidation, a series of reactions that progressively shorten the acyl-CoA chain. This process generates acetyl-CoA molecules.
4. Glyoxylate cycle: Unlike in mitochondria, where acetyl-CoA enters the citric acid cycle, in glyoxysomes, it is diverted to the glyoxylate cycle. In this cycle, acetyl-CoA is condensed with another acetyl-CoA to form malate. This malate can then be converted into other carbohydrates, such as glucose or starch, which serve as energy sources for seedling growth.
Conclusion
In germinating seeds, fatty acids are exclusively degraded in the glyoxysomes. These specialized organelles contain enzymes that carry out the glyoxylate cycle, allowing the conversion of fatty acids into carbohydrates for energy production. This process is crucial for the growth and development of seedlings during germination.
Germination is the process in which a seed develops into a new plant. During this process, various biochemical changes occur, including the degradation of fatty acids to provide energy for seedling growth. This degradation of fatty acids takes place exclusively in the glyoxysomes.
Glyoxysomes
Glyoxysomes are specialized organelles found in plant cells. They are similar to peroxisomes but have unique enzymes that enable them to carry out specific metabolic processes. Glyoxysomes are particularly involved in the conversion of stored lipids into carbohydrates, a critical step in providing energy for seedling growth.
Fatty acid degradation in glyoxysomes
Fatty acid degradation in glyoxysomes involves a series of enzymatic reactions known as the glyoxylate cycle or the glyoxylate shunt. This cycle allows the conversion of fatty acids into carbohydrates, specifically succinate, which can be used as a carbon source for energy production.
The key steps involved in fatty acid degradation in glyoxysomes are as follows:
1. Activation of fatty acids: Fatty acids are activated in the cytoplasm by the addition of Coenzyme A (CoA) to form acyl-CoA. This process requires ATP.
2. Transport into glyoxysomes: Acyl-CoA is then transported into the glyoxysomes, where the degradation process occurs.
3. Beta-oxidation: Inside the glyoxysomes, the acyl-CoA is subjected to beta-oxidation, a series of reactions that progressively shorten the acyl-CoA chain. This process generates acetyl-CoA molecules.
4. Glyoxylate cycle: Unlike in mitochondria, where acetyl-CoA enters the citric acid cycle, in glyoxysomes, it is diverted to the glyoxylate cycle. In this cycle, acetyl-CoA is condensed with another acetyl-CoA to form malate. This malate can then be converted into other carbohydrates, such as glucose or starch, which serve as energy sources for seedling growth.
Conclusion
In germinating seeds, fatty acids are exclusively degraded in the glyoxysomes. These specialized organelles contain enzymes that carry out the glyoxylate cycle, allowing the conversion of fatty acids into carbohydrates for energy production. This process is crucial for the growth and development of seedlings during germination.
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In germinating seeds fatty acids are degraded exclusively in the [2008...
In germinating seeds, fatty acids are degraded exclusively in the glyoxysomes. Glyoxylate cycle occurs in tissues rich in fats, such as those of germinating seeds; the enzymes involved in the cycle, which have not been found in mammals, are contained in organelles called glyoxysomes
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In germinating seeds fatty acids are degraded exclusively in the [2008]a)proplastidsb)glyoxysomesc)peroxisomesd)mitochondriaCorrect answer is option 'B'. Can you explain this answer?
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