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It would not undergo DNA replication.
as helicase unwinds the double stranded DNA DNA polymerase is responsible for inserting the new coresponding nucleotides during replication and wihtout it the unwound DNA would remain single stranded.
A change to the newly synthesized DNA strand, but not the template.
It would not be a cell or organism as we understand it. DNA replication is the main event and if DNA had a purpose this would be it.
The steps of viral replication are attachment, penetration, uncoating/disassembly, transcription/translation, and assembly/release. Choose the one you believe will be the most effective for blocking the viral replication without harming humans and their DNA replication.
You could have a mutant cell.
That would be called the Replication Fork
an error in DNA replication would affect many generations of cells
Replication would not be associated with DNA during mitosis.
It would most likely be directly involved in replication.
It would not undergo DNA replication.
as helicase unwinds the double stranded DNA DNA polymerase is responsible for inserting the new coresponding nucleotides during replication and wihtout it the unwound DNA would remain single stranded.
A change to the newly synthesized DNA strand, but not the template.
Complementary base pairing is necessary because it ensures the fidelity of the DNA sequence during replication. Because only one base can pair with only one other, the two daughter strands of DNA made during replication will be the exact same as the original parent strand. If this were not the case DNA replication would result in random DNA sequences.
You have one too many bases.
It would not be a cell or organism as we understand it. DNA replication is the main event and if DNA had a purpose this would be it.
The steps of viral replication are attachment, penetration, uncoating/disassembly, transcription/translation, and assembly/release. Choose the one you believe will be the most effective for blocking the viral replication without harming humans and their DNA replication.