Want this question answered?
Dna replication would be 'unsupported' - meaning that it would not take place.
This is because of Polymerase Chain Reaction (PCR). Basically, the problem is that you have a mixture of DNA, polymerase, primers etc, and you want to denature the DNA (separate both chains) - the denaturation happens at 94°C. Since the polymerase is present in the mixture, it has to withstand such temperature.
a DNA polymerase. The endonuclease recognizes and cleaves the damaged DNA, creating a site for repair. The DNA polymerase then fills in the gap with the correct nucleotides, restoring the integrity of the DNA molecule. This race determines whether the DNA is successfully repaired or if mutations will persist in the repaired sequence.
DNA Polymerase.
DNA Polymerase is the enzyme which adds new nucleotides during replication.
Dna replication would be 'unsupported' - meaning that it would not take place.
This is because of Polymerase Chain Reaction (PCR). Basically, the problem is that you have a mixture of DNA, polymerase, primers etc, and you want to denature the DNA (separate both chains) - the denaturation happens at 94°C. Since the polymerase is present in the mixture, it has to withstand such temperature.
a DNA polymerase. The endonuclease recognizes and cleaves the damaged DNA, creating a site for repair. The DNA polymerase then fills in the gap with the correct nucleotides, restoring the integrity of the DNA molecule. This race determines whether the DNA is successfully repaired or if mutations will persist in the repaired sequence.
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.
DNA polymerase matches the bases on the parent strand.
The enzyme that transcribes the DNA into RNA is called RNA polymerase.
DNA Polymerase III
DNA ligase. Apex
dna polymerase
DNA polymerase is a catalyst, by catalyzing the synthesis of new DNA by adding nucleotides to a preexisting chain. There are several different DNA polymerases, but DNA polymerase I and DNA polymerase II play the major roles in DNA replication.