Put the following steps of DNA, replication in order.
→ As a result, one strand (the leading strand) is replicated continuously in the 5' to 3' direction in the same direction that the replication fork is moving
→ When replication is complete, DNA polymerase dismantles the RNA primer and proofreads the nitrogen base pairing of the two new DNA molecule
→ The helicase cleave and unravel a section of the original double helix, creating Y-shaped areas (replication forks) at the end of the unwound areas, which form a replication bubble.
→ DNA polymerase can only synthesize the new nucleotide chain in the 5' to 3' direction.
→ Replication end with each new molecule of DNA containing one parent strand and one new strand
→ Three fragments, called Okazaki fragments, are spliced together by DNA ligase
→ Replication begins with a specific nucleotide sequence called the replication origin
→ New DNA strands are produced when an enzyme called DNA polymerase inserts into the replication bubble
→ A primase enzyme synthesizes an RNA primer that serves as the starting point of new nucleotide attachment by DNA polymerase
→ The other strand, known as the lagging strand, is replicated in short segments, still in the 5'3 to 3' direction, but away from the replication fork
→ A group of enzymes, called the helicases, bind to the DNA at each replication origin