DNA replicates using the process called semiconservative replication. An original DNA molecule is complementary to the replicated molecule, which means that they are identical copies of each other.
The deoxyribon nucleic acid lines up in perfect formation and the spindle fibers come and rip apart the DNA now there are to complete copies of DNA
DNA (deoxyribosenucleic acid) replicates by a process called semi-conservative replication. In semi-conservative replication, one side of the DNA structure as acts a template and guide for the other strand to copy. Floating nucleotides then match up with the corresponding base (adenine base pairs with thymine, and cytosine base pairs with guanine). This pairing system is known as complementary base pairing. The fact that one side is copied exactly like the other, and the bases are always joined in the same sequence means the chances of a mutation is lessened, hence the two copies are exactly like the original DNA.
New copies of DNA have to be identical to the original strand so that the cells can function properly. If mistakes are made in DNA replication, it could cause a mutation to occur. In body cells, that means the possibility of tumors, including cancer. In gametes (sperm and egg cells), this could mean are very harmful genetic disorder, or it could be so bad that the organism produced by fertilization may not be able to survive.
The two new cells are genetically identical to each other and the original cell.
A new strand of DNA exactly alike to the original is created.
Please elaborate. If you mean how to compare the replicated DNA molecule with the original, there is no point because the replicated DNA molecule is an EXACT copy of the original.
The deoxyribon nucleic acid lines up in perfect formation and the spindle fibers come and rip apart the DNA now there are to complete copies of DNA
New copies of DNA have to be identical to the original strand so that the cells can function properly. If mistakes are made in DNA replication, it could cause a mutation to occur. In body cells, that means the possibility of tumors, including cancer. In gametes (sperm and egg cells), this could mean are very harmful genetic disorder, or it could be so bad that the organism produced by fertilization may not be able to survive.
DNA (deoxyribosenucleic acid) replicates by a process called semi-conservative replication. In semi-conservative replication, one side of the DNA structure as acts a template and guide for the other strand to copy. Floating nucleotides then match up with the corresponding base (adenine base pairs with thymine, and cytosine base pairs with guanine). This pairing system is known as complementary base pairing. The fact that one side is copied exactly like the other, and the bases are always joined in the same sequence means the chances of a mutation is lessened, hence the two copies are exactly like the original DNA.
The two new cells are genetically identical to each other and the original cell.
It is known as SEMI-CONSERVATIVE REPLICATION because the DNA produces two copies of DNA that each contain the original strand and one entirely new strand. You can definitely compare this to complementary base pairing. Hope this helps :) ~T.K
A new strand of DNA exactly alike to the original is created.
Scientists have the means to extract the DNA strand from a cell. Once the DNA strand is removed, it can be altered, then placed back into the cell. When the cell divides and multiplies - the new copies will retail the altered DNA rather than having the original.
Semi conservative replication prevents mutations during DNA replication because it produces 2 copies that each contained 1 of the original strands and 1 entirely new strand.
The original strands provide a template for making new strands.
It is a copy of the Dna original strand.
Semi-conservative replication refers to the normal process of the synthesis of DNA. It produces two copies of DNA, each containing one of the original strands and one entirely new strand.