They are originated from bacteria.They have ribosomes,DNA,enzymes etc
DNA, Nucleus, Mitochondria, Endoplasmic Reticulum, Ribosome, Cell wall, Golgi Complex
Autotrophic organisms are animals or plants that can create their own energy from the Sun. The organelle most common in these organisms are chloroplasts.
Common organelles found in cells include the nucleus, mitochondria, endoplasmic reticulum, Golgi apparatus, lysosomes, and peroxisomes. Additionally, plant cells contain organelles such as chloroplasts and central vacuoles.
Nucleus, ribosomes, mitochondria etc. function for genetic information, protein synthesis and respiration.
They are originated from bacteria.They have ribosomes,DNA,enzymes etc
DNA, Nucleus, Mitochondria, Endoplasmic Reticulum, Ribosome, Cell wall, Golgi Complex
Autotrophic organisms are animals or plants that can create their own energy from the Sun. The organelle most common in these organisms are chloroplasts.
Both are eukaryotic organisms . They have many in common. Chloroplast,nucleus ets
Common organelles found in cells include the nucleus, mitochondria, endoplasmic reticulum, Golgi apparatus, lysosomes, and peroxisomes. Additionally, plant cells contain organelles such as chloroplasts and central vacuoles.
Plant and animal cells both have organelles such as the nucleus, mitochondria, endoplasmic reticulum, Golgi apparatus, and lysosomes. These organelles perform similar functions in both types of cells, such as energy production (mitochondria), protein synthesis (endoplasmic reticulum), and waste disposal (lysosomes).
Mitochondria and chloroplasts are both membrane-bound organelles found in eukaryotic cells. They both generate energy for the cell: mitochondria through aerobic respiration to produce ATP, and chloroplasts through photosynthesis to convert sunlight into energy. Additionally, both organelles contain their own DNA and ribosomes, allowing them to produce some of their own proteins independently from the cell's nucleus.
There is a theory that chloroplast and mitochondria were independent organisms. Since they were, they would have their own DNA. And it is true that they do. It is interesting that you get your mitochondria from only your mother. There are many studies have used mtDNA to trace the evolution and migration of human species, including when the common ancestor to modern humans and Neanderthals lived.
Nucleus, ribosomes, mitochondria etc. function for genetic information, protein synthesis and respiration.
Cells, DNA, RNA, Genes, Proteins, Cell membranes. Eukaryotes all have a nucleus and Mitochondria, which bacteria lack.
Nucleus, ribosomes, mitochondria etc. function for genetic information, protein synthesis and respiration.
This is a relatively complicated question as the exact origins of mitochondria and how they came to be included in eukaryotic cells is still under investigation and therefore open to debate.Everyone seems to agree though, that they originally come from bacterium and that they were assimilated into eukaryotic cells either because they were useful or through some form of symbiosis.As mitochondria are common to both plant and animal cells it could therefore be argued that they shared a common ancestor at some point in evolution.The inclusion of the chloroplast came later, and a separate line of mitochondrial and chloroplast carrying cells evolved - eventually becoming plants. The line without the chloroplast becoming animals.