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Half of the original DNA is in the replicated DNA.
it makes a copy of itself by using its own side
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No. All strands can be replicated, just depends on where the enzyme decides to land and unzip it. Anyways, all DNA molecules would be adequate templates since they are all identical copies of each other.
They prevent reattachement of DNA when it is being separated and replicated. It is also known as: "Single-strand DNA-binding proteins."
When DNA is replicated, the new double-strand contains one old strand and one new strand. This means that one of the old strands has been conserved, making DNA replication semi-conservative.
DNA polymerase is what I think you are referring to. It will join free nucleotides into a strand based off of a model template.
I'm not an expert on this subject but as I've learned, DNA is split into two replication forks where the complimentary base pairs and other backbones are added on, so ideally it would be 50% of the original strand in each daughter strand.
TAGC.
replicated DNA is made of one old strand and one new strand.
Leading strand
chromatid
Template?
No. All strands can be replicated, just depends on where the enzyme decides to land and unzip it. Anyways, all DNA molecules would be adequate templates since they are all identical copies of each other.
The lagging strand of DNA contains okazaki fragments, which are later joined by DNA ligase
They prevent reattachement of DNA when it is being separated and replicated. It is also known as: "Single-strand DNA-binding proteins."
Two - the leading strand and the lagging strand.
When DNA is replicated, the new double-strand contains one old strand and one new strand. This means that one of the old strands has been conserved, making DNA replication semi-conservative.
DNA polymerase is what I think you are referring to. It will join free nucleotides into a strand based off of a model template.
DNA replication is called a semi-conservative operation because during the process, the two strands of the DNA molecule separate, and each strand serves as a template for the synthesis of a new complementary strand. As a result, each newly replicated DNA molecule consists of one strand that is the original template and one strand that is the newly synthesized strand. This ensures that the genetic information is conserved and passed on to the daughter cells during cell division.