Which evidence supports the Endosymbiotic theory of abiotic symbiosis?

Which evidence supports the Endosymbiotic theory of abiotic symbiosis?

What evidence supports the Endosymbiotic theory of abiotic symbiosis?

There is ample evidence that mitochondria and the plastids were created from bacteria. One of the strongest arguments for the endosymbiotic theory states that mitochondrial DNA is different than that of cells and that they each have their own protein biosynthesis machinery.

What is endosymbiosis and what evidence supports it?

The endosymbiotic theory suggests that some organelles found in eukaryotic cell membranes were once prokaryotic microbes. The size of prokaryotic cells is the same as that of mitochondria and chloroplasts and they divide via binary fission. Each mitochondrial and chloroplast’s DNA is circular, not linear.

What evolutionary advantage does compartmentalization provide eukaryotes for their survival?

Compartmentalization in eukaryotic cells is largely about efficiency. The creation of microenvironments within cells can be achieved by separating them into separate parts. This allows each organelle to have the benefits it needs to be at its best.

What might be the advantage of compartmentalizing cells?

Cells are not an amorphous mix of proteins, cholesterols and other molecules. Compartmentalization improves the efficiency of many subcellular functions by concentrating the necessary components within a small space.

How do prokaryotes and eukaryotes differ in terms of their compartmentalization?

One of the main differences between prokaryotes, eukaryotes, and eukaryotes is the way that eukaryotes separate their internal processes within membrane-bound organelles. Prokaryotes have RNA that is converted into proteins immediately after it has been made from DNA. They do not have an endoplasmic or nucleus.

Read:  What was the result of the "Intolerable Acts Brainly"?

Is virus an anti-prokaryote or a prokaryote.

Prokaryotes includes many types of microorganisms such as bacteria or cyanobacteria. Because viruses are not considered prokaryotes or eukaryotes, they do not possess the characteristics of living organisms. They can only reproduce in living cells.