Hola amanda also sorry it’s taking forever i swear this works so don’t give up
<span>It is called the Peer Review<span>
- It was designed to make sure that proper control has been executed in experiments and have consistent data before publishing. This is done by filtering out invalid or poor quality articles to maintain the integrity of science.</span></span>
Answer:
The DNA must be able to separate its two strands in order to be connected to the sliding clamp.
For this to occur, the action of the protein components: helicase and topoisomerase is necessary.
Explanation:
The sliding clamp is a protein that participates in DNA replication. This protein is responsible for forming a "ring" around the single strand of DNA, allowing the polymer DNA (DNA replicating enzyme) to be firmly suited to the strand and to be able to create the new DNA strands. The sliding clamp is also responsible for the DNA polymerase decoupling from the DNA at the end of replication.
For the sliding clamp to work correctly, it is necessary for the DNA to unravel and release its two strands. This process needs the help of the Helicase enzymes, which are responsible for breaking the hydrogen bonds that hold the two DNA strands together, and, for topoisomerase, which is the enzyme that prevents single strands of DNA from creating torsions in their extension.
Answer:
He had helped secure financing for the ship and passengers in order to make the voyage.
Explanation: test
