Compare the proofreading mechanisms of DNA and RNA polymerase. Specifically, which active site is required for...

Compare the proofreading mechanisms of DNA and RNA polymerase. Specifically,
which active site is required for proofreading by each enzyme and what are the products of
this activity?

Expert Solution

The function of DNA polymerase is not quite perfect, with the enzyme making about one mistake for every billion base pairs copied. Error correction is a property of some, but not all DNA polymerases. This process corrects mistakes in newly synthesized DNA. When an incorrect base pair is recognized, DNA polymerase moves backwards by one base pair of DNA. The 3'–5' exonuclease activity of the enzyme allows the incorrect base pair to be excised (this activity is known as proofreading). Following base excision, the polymerase can re-insert the correct base and replication can continue forwards. This preserves the integrity of the original DNA strand that is passed onto the daughter cells.Unlike the proofreading mechanisms of DNA polymerase those of RNAP have only recently been investigated. Proofreading begins with separation of the mis-incorporated nucleotide from the DNA template. This pauses transcription. The polymerase then backtracks by one position and cleaves the dinucleotide that contains the mismatched nucleotide. In the RNA polymerase this occurs at the same active site used for polymerization and is therefore markedly different from the DNA polymerase where proofreading occurs at a distinct nuclease active site.[18]

gladiator answered 2 years ago

Compare and contrast the properties of DNA polymerase and RNA polymerase.

Compare and contrast the properties of DNA polymerase and RNA polymerase. Drag the appropriate items to their respective bins.

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