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It is false that if oxygen is present in a cell, pyruvic acid in glycolysis enters the chloroplasts. The pyruvic acid enters the mitochondria if oxygen is present in a cell.
Ribosomes are present in chloroplasts and mitochondria because both organelles have their own DNA and protein synthesis machinery. They need ribosomes to translate the genetic information from their DNA into proteins that are essential for their proper functioning. Additionally, chloroplasts and mitochondria are believed to have originated from ancient bacteria that were engulfed by a host cell, and these bacteria-like organelles still retain some of the features of their bacterial ancestors, including the presence of ribosomes.
Inside cells in the cyptoplasmThey are found on rough ER mainly. Also in mitochondria and chloroplasts
Mitochondria are cell's energy producers, they are also called power house of the cell. they have various shapes but are usually sausage like, double walled, inner wall is thrown into folds called cristae. they have DNA containing several genes & also contain ribosomes where as chloroplast is a kind of plastid present only in plant cell. they contain a pigment called chlorophyll which traps solar energy to prepare their food thus allow the process of photosynthesis.
Oxygen and glucose are the raw materials. Enzymes guides the process
Enzymes.
Enzymes present in many organells.As examples lysosomes,cytoplasm,mitochondria,chloroplast.
Chloroplasts and mitochondria. It is believed they were engulfed by the cells because of the dual membrane present on both. Both are believed to have originated from an endosymbiotic bacteria. Mitochondria's inner matrices contain DNA, and they have many features similar to those of bacteria. Chloroplasts are believed to have come from an endosymbiotic cyanobacteria.
It is false that if oxygen is present in a cell, pyruvic acid in glycolysis enters the chloroplasts. The pyruvic acid enters the mitochondria if oxygen is present in a cell.
Ribosomes are present in chloroplasts and mitochondria because both organelles have their own DNA and protein synthesis machinery. They need ribosomes to translate the genetic information from their DNA into proteins that are essential for their proper functioning. Additionally, chloroplasts and mitochondria are believed to have originated from ancient bacteria that were engulfed by a host cell, and these bacteria-like organelles still retain some of the features of their bacterial ancestors, including the presence of ribosomes.
Mitochondria, both matrix and the inner membrane of it. Chloroplast, during the light reaction in the thylakoid membrane. ATP is also synthesized by cytoplasm.
Inside cells in the cyptoplasmThey are found on rough ER mainly. Also in mitochondria and chloroplasts
Although chloroplasts are present inside plant to make food but mitochondria still play a vital role by providing energy required for the various activities of the cell.
Monerans lack membrane-bound organelles which are present in other organisms. These membrane-bound organelles include the mitochondria and chloroplasts. An example of a monera is bacteria.
Mitochondria are cell's energy producers, they are also called power house of the cell. they have various shapes but are usually sausage like, double walled, inner wall is thrown into folds called cristae. they have DNA containing several genes & also contain ribosomes where as chloroplast is a kind of plastid present only in plant cell. they contain a pigment called chlorophyll which traps solar energy to prepare their food thus allow the process of photosynthesis.
Yes, ribosomes are present in plant cells. They are in 4 parts of the plant cell. They are found in the cytoplasm, the surface of the endoplasmic reticulum, the mitochondria, and on chloroplasts.
Chloroplasts and Mitochondria have their own DNA. Hence, these are also called autonomous. Most other DNA present in eukaryotic organisms is found in the cell nucleus.