Mitochondria is where cellular respiration takes place and where most energy in the form of ATP is generated. Chloroplasts convert sunlight energy into chemical energy stored in sugar molecules. Mitochondria uses chemical energy; chloroplasts use light energy.
Mitochondria are responsible for cellular respiration, converting glucose into ATP for energy. Chloroplasts, on the other hand, carry out photosynthesis, converting sunlight, water, and carbon dioxide into glucose and oxygen. Both organelles have double membranes and their own DNA.
Chloroplasts need mitochondria because they provide energy in the form of ATP for chloroplast functions, such as photosynthesis. Similarly, mitochondria need chloroplasts because they rely on carbon compounds produced by photosynthesis in chloroplasts for their energy production through cellular respiration. This mutual interdependence ensures the efficient functioning of both organelles in plant cells.
Mitochondria and chloroplasts are thought to have once been a free prokaryotic cell.
There are three characteristics of mitochondria and chloroplasts that support this theory. First, both mitochondria and chloroplasts have two membranes surrounding them. Second, like prokaryotes, mitochondria and chloroplasts contain ribosomes, as well as a circular DNA molecules attached to their inner membranes. Third, mitochondria and chloroplasts are autonomous.
Mitochondria and chloroplasts have their own DNA. Mitochondria DNA is circular, similar to bacterial DNA, and is inherited maternally. Chloroplasts also have circular DNA and are thought to have originated from endosymbiotic relationships with ancient prokaryotes.
They have different functions. But they have similarities
1)Mitochondria occur in the cells of aerobic organisms with the exception of mammalian RBCs while Chloroplasts occur in the cells of green photosynthetic parts of plants. 2)Mitochondria is colorless while Chloroplasts is green in color. 3) Mitochondria's shape is rod-like or sausage-shaped while Chloroplasts are generally disc-like in outline. 4) Mitochondria liberate energy while Chloroplasts trap solar energy and convert it into chemical energy. 5) Mitochondria perform oxidation of food while Chloroplasts synthesize food by photosynthesis. 6) Mitochondria consumes O2 and liberate CO2 while Chloroplasts consumes CO2 and liberate O2.
Nucleus Mitochondria
Mitochondria are responsible for cellular respiration, converting glucose into ATP for energy. Chloroplasts, on the other hand, carry out photosynthesis, converting sunlight, water, and carbon dioxide into glucose and oxygen. Both organelles have double membranes and their own DNA.
Chloroplasts need mitochondria because they provide energy in the form of ATP for chloroplast functions, such as photosynthesis. Similarly, mitochondria need chloroplasts because they rely on carbon compounds produced by photosynthesis in chloroplasts for their energy production through cellular respiration. This mutual interdependence ensures the efficient functioning of both organelles in plant cells.
1)Mitochondria occur in the cells of aerobic organisms with the exception of mammalian RBCs while Chloroplasts occur in the cells of green photosynthetic parts of plants. 2)Mitochondria is colourless while Chloroplasts is green in colour. 3) Mitochondria's shape is rod-like or sausage-shaped while Chloroplasts are generally disc-like in outline. 4) Mitochondria liberate energy while Chloroplasts trap solar energy and convert it into chemical energy. 5) Mitochondria perform oxidation of food while Chloroplasts synthesize food by photosynthesis. 6) Mitochondria consumes O2 and liberate CO2 while Chloroplasts consumes CO2 and liberate O2.
Mitochondria and Chloroplasts are involved in energy conversion.
Mitochondria and chloroplasts are thought to have once been a free prokaryotic cell.
There are three characteristics of mitochondria and chloroplasts that support this theory. First, both mitochondria and chloroplasts have two membranes surrounding them. Second, like prokaryotes, mitochondria and chloroplasts contain ribosomes, as well as a circular DNA molecules attached to their inner membranes. Third, mitochondria and chloroplasts are autonomous.
Mitochondria and chloroplasts have their own DNA. Mitochondria DNA is circular, similar to bacterial DNA, and is inherited maternally. Chloroplasts also have circular DNA and are thought to have originated from endosymbiotic relationships with ancient prokaryotes.
No they do not. They are in chloroplasts.
Mitochondria and chloroplasts are the two organelles that contain their own DNA in addition to the nucleus. This DNA is separate from the nuclear DNA and is involved in the organelles' functions, such as energy production in mitochondria and photosynthesis in chloroplasts.