The enzyme which has a final mistake rate of 1 mistake \( / 10^{9} \) nucleotides is the enzyme which has a final mistake rate of 1 mistake \( / 10^{5} \) nucleotides is must be in correct order) DNA Polymerase; RNA Polymerase RNA Polymerase; DNA Polymerase ribosomal RNA; mRNA Ribosomal RNA; DNA Polymerase

DNA Polymerase has an incredible accuracy, with a final mistake rate of only 1 mistake per billion nucleotides. This high fidelity ensures that DNA replication maintains the integrity of genetic information across generations, which is crucial for life as we know it. On the flip side, RNA Polymerase is less accurate, with a mistake rate of about 1 mistake per hundred thousand nucleotides. While this may seem like a higher error margin, the transient nature of RNA molecules means occasional mistakes can still lead to functioning protein synthesis without catastrophic consequences. For those eager to dive deeper into the world of molecular biology, exploring literature like "Molecular Biology of the Cell" by Alberts et al. provides great insight into cellular processes. Additionally, "The Gene: An Intimate History" by Siddhartha Mukherjee offers a gripping narrative that intertwines genetics with human history, making complex concepts accessible and engaging for everyone!