Want this question answered?
DNA polymerases. As an incoming nucleotide base-pairs with it's complement on the template strand, a DNA polymerase adds it to the end of the growing daughter strand (polymer).
It's the DNA polymerase that catalyzes the formation of phosphodiester bonds between the nucleotides during replication.
DNA Polymerase is the enzyme which adds new nucleotides during replication.
DNA Polymerase has 2 main functions. The first is replication, or creating the new DNA strand from the template it has been given. The second is proofreading the new strand after it has been created to make sure it had been copied correctly.
Plato .... False
DNA polymerases
DNA Polymerases
DNA polymerases. As an incoming nucleotide base-pairs with it's complement on the template strand, a DNA polymerase adds it to the end of the growing daughter strand (polymer).
DNA polymerases add nucleotides to the exposed base pairs according to base-pairing rules.
DNA polymerases are the enzymes responsible for joining DNA nucleotides together. In Prokaryotes - DNA Pol III is the enzyme which adds nucleotides to the new strand during DNA replication. DNA Pol I is responsible for replacing the primers with DNA nucleotides.
DNA Polymerase III is responsible for adding new nucleotides to the strand being synthesised. Also involved in DNA replication are DNA Polymerase I which replaces primers with nucleotides, and DNA Ligase which joins fragments of DNA together.
The Ligase connects nucleotides together during DNA replication.
Various DNA polymerases read the DNA template during replication of DNA. Various RNA polymerases read the DNA template during transcription.
During DNA replication the following occurs: 1) An enzyme called helicase separates the DNA strands (the space where they separate is called the replication fork). 2) DNA polymerase adds complementary nucleotides to the separated strand of DNA. 3) The DNA polymerase enzyme finishes adding nucleotides and there are two identical DNA molecules.
DNA polymerase adds bases to the 3' end during replication. It matches the c with G and A with U during replication. Never add to the 5' end!
Prokaryotic DNA is reproduced with DNA Polymerases replication forks.
DNA polymerase 1,2,3 are enzymes involved in adding nucleotides during replication