The phrase DNA proofreading is used to describe the correction process of genetic errors. The extent of this proofreading determines the mutation rate of species.
One mistake means the entire thing is wrong.
The DNA "proofreads" itself. It will make sure that all the new parts are correct when copying itself.
DNA Polymerase
proofreading
because they produce such large amounts of the Rna
DNA Polymerase III adds nucleotides during DNA replication. DNA Polymerase I also adds nucleotides (to a lesser extent). DNA Pol I is responsible for replacing the primers with dNTPs, these sections are then joined to the rest by DNA Ligase.
RNA polymerase doesn't have a proofreading function.
PCR need thermostable enzyme like taq DNA polymearse, while in replication using highly proofreading enzyme DNA polymerase. taq enzyme work in very high temprature while in replication our body temprature
proofreading
proofreading
because they produce such large amounts of the Rna
DNA polymerase 1 is involved in replication when proofreading and repairing of the DNA sequence as well as removal of RNA primers placed by primase so that DNA polymerase 3 can successfully attach the complementary strand of DNA
DNA Polymerase carries out mismatch repair, or proofreading, and corrects any errors.
It catalyzes the bonding of RNA nucleotides.
DNA Polymerase III adds nucleotides during DNA replication. DNA Polymerase I also adds nucleotides (to a lesser extent). DNA Pol I is responsible for replacing the primers with dNTPs, these sections are then joined to the rest by DNA Ligase.
RNA polymerase doesn't have a proofreading function.
PCR need thermostable enzyme like taq DNA polymearse, while in replication using highly proofreading enzyme DNA polymerase. taq enzyme work in very high temprature while in replication our body temprature
DNA Polymerase.
DNA Polymerase is the enzyme which adds new nucleotides during replication.
DNA polymerase replicated DNA. RNA polymerase creates mRNA to be used in protein synthesis. RNA polymerase does not replicated DNA.