endosymbiosis
ALL plant cells have chloroplast - Not ALL plant cells have chloroplasts. I'm actually studying this in my college Biology class right now. "Chloroplast is an organelle that specializes in photosyntheses.." Therefore cholorplast is found in plant cells that receive light. You won't however find chloroplast in plant cells underground (roots, bulbs, ect.) because light generally doesn't reach those cells. If somehow they become exposed to light though they may develop choloroplast. I hope that helps.
It is theorized that those are the two organelles that took part in the endosymbiotic theory. This is because they both have their own DNA, divide separately from the cell, and look very similar to bacterias. According to the theory, they were once free living organisms that started a mutualism with an early eukaryotic cell, and they've been inseparable ever since.
Mitochondria are double-membrane-bound organelles responsible for producing energy in the form of ATP through cellular respiration. Chloroplasts, found in plant cells, are also double-membrane-bound organelles responsible for conducting photosynthesis to produce energy-rich molecules like glucose. Both organelles contain their own DNA and ribosomes, supporting the endosymbiotic theory that they originated from independent prokaryotic organisms that were engulfed by early eukaryotic cells.
I think its the organelles (sorry about the spelling) like the mitochondria, the nucleus and others I hope this helps you :)
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.
ALL plant cells have chloroplast - Not ALL plant cells have chloroplasts. I'm actually studying this in my college Biology class right now. "Chloroplast is an organelle that specializes in photosyntheses.." Therefore cholorplast is found in plant cells that receive light. You won't however find chloroplast in plant cells underground (roots, bulbs, ect.) because light generally doesn't reach those cells. If somehow they become exposed to light though they may develop choloroplast. I hope that helps.
It is theorized that those are the two organelles that took part in the endosymbiotic theory. This is because they both have their own DNA, divide separately from the cell, and look very similar to bacterias. According to the theory, they were once free living organisms that started a mutualism with an early eukaryotic cell, and they've been inseparable ever since.
Mitochondria are double-membrane-bound organelles responsible for producing energy in the form of ATP through cellular respiration. Chloroplasts, found in plant cells, are also double-membrane-bound organelles responsible for conducting photosynthesis to produce energy-rich molecules like glucose. Both organelles contain their own DNA and ribosomes, supporting the endosymbiotic theory that they originated from independent prokaryotic organisms that were engulfed by early eukaryotic cells.
Mitochondria and chloroplasts were once free-living prokaryotes that were engulfed by primitive eukaryotic cells through endosymbiosis. They eventually evolved into organelles and now play essential roles in eukaryotic cells.
I think its the organelles (sorry about the spelling) like the mitochondria, the nucleus and others I hope this helps you :)
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.
They both have their own DNA. In addition, it has been observed that they divide on their own during cell division. They also both have two membrane as opposed to one membrane in rest of the organelles (except for the nucleus). They are also similar because they are both Organ 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.
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.
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.
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.
Yes, most protozoa have mitochondria. Mitochondria are vital organelles that generate energy through aerobic respiration, a process crucial for the survival of many eukaryotic organisms, including protozoa.