Prokaryotes can have chloroplast. This only depends on whether or not the prokaryote makes its own energy using photosynthesis.
No, prokaryotic cells have none of either.
No they don't.They are only in eukariyotes. Prokariyotes have photosynthetic filaments
Chloroplasts are specific plant organelles of prokaryotic origin. They are separated from the surrounding cell by a double membrane, which represents an effective barrier for the transport of metabolites and proteins. Specific transporters in the inner envelope membrane have been described, which facilitate the exchange of metabolites.Metabolites - Any substance produced by metabolism or by a process.
Mitochondria and chloroplasts are thought to have once been a free prokaryotic cell.
By definition, prokaryotic cells cannot have chloroplasts. This is either a trick question or the answer should replace prokaryotic with eukaryotic. In eukaryotic cells, the chloroplast serves as an energy translator. It takes energy from photons and translates it into usable energy for the cell via carbon compounds. These carbon compounds are eventually combined to form sugars.
Chloroplasts evolved from bacteria.They were photosynthetic bacteria.
No. Prokaryotic cells are bacteria cells. Chloroplasts are found in plants. They are made of chlorophyll and they are what makes the plants green.
Chloroplasts are in eukariyotes only. They are absent in prokariyotes
No they do not have. They are in eukariyotes only
No, prokaryotic cells have none of either.
No they don't.They are only in eukariyotes. Prokariyotes have photosynthetic filaments
Chloroplasts are specific plant organelles of prokaryotic origin. They are separated from the surrounding cell by a double membrane, which represents an effective barrier for the transport of metabolites and proteins. Specific transporters in the inner envelope membrane have been described, which facilitate the exchange of metabolites.Metabolites - Any substance produced by metabolism or by a process.
Mitochondria and chloroplasts are thought to have once been a free prokaryotic cell.
If a cell does not have a nucleus, then it is a prokaryote. If a eukaryotic cell has chloroplasts, then it is a plant or algal cell. If a cell has a nucleus but no chloroplasts, then it could be an animal cell.
If a cell does not have a nucleus, then it is a prokaryote. If a eukaryotic cell has chloroplasts, then it is a plant or algal cell. If a cell has a nucleus but no chloroplasts, then it could be an animal cell.
Mitochondria and chloroplasts most likely arose in eukaryotic cells through a process called endosymbiosis, where a host cell engulfed a prokaryotic cell. Over time, the prokaryotic cell evolved to become an organelle within the host cell, forming a symbiotic relationship. This theory is supported by the similarities between mitochondria and chloroplasts and modern-day bacteria.
Animal cells do not have chloroplasts, which are a structure only found in plant cells. Chloroplasts are responsible for photosynthesis, a process where plants convert sunlight into energy.