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https://eapbiofield.wikispaces/Ch+16+The+..

https://eapbiofield.wikispaces.com/Ch+16+The+. https://eapbiofield.wikispaces.com/Ch+16+The+. DNA Polymerase. DNA Polymerase. www.chemgapedia.de.

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https://eapbiofield.wikispaces/Ch+16+The+..

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  1. https://eapbiofield.wikispaces.com/Ch+16+The+..

  2. https://eapbiofield.wikispaces.com/Ch+16+The+..

  3. DNA Polymerase DNA Polymerase

  4. www.chemgapedia.de

  5. DNA replication occurs when the complementary strands of DNA break apart and unwind. This is accomplished with the help of enzymes called helicases. Additional enzymes and proteins attach to the individual strands, holding them apart and preventing them from coiling upon themselves. The point at which the double helix separates is called the replication fork, because of the shape of the molecule. At this site enzymes called DNA polymerases move along each of the separated DNA strands, adding nucleotides to the exposed bases according to the base pairing rules. The ribose-phosphate bonds form between the new nucleotides to hold the new strand together. The process continues until the original double helix is completely unwound and two new double helices have been formed. Each new double helix is composed of one old DNA strand and one new strand. This is described as semi-conservative replication.

  6. Legend:The major types of proteins, which must work together during the replication of DNA, are illustrated, showing their positions. When DNA replicates, many different proteins work together to accomplish the following steps: The two parent strands are unwound with the help of DNA helicases. Single stranded DNA binding proteins attach to the unwound strands, preventing them from winding back together. The strands are held in position, binding easily to DNA polymerase, which catalyzes the elongation of the leading and lagging strands. (DNA polymerase also checks the accuracy of its own work!). While the DNA polymerase on the leading strand can operate in a continuous fashion, RNA primer is needed repeatedly on the lagging strand to facilitate synthesis of Okazaki fragments. DNA primase, which is one of several polypeptides bound together in a group called primosomes, helps to build the primer. Finally, each new Okazaki fragment is attached to the completed portion of the lagging strand in a reaction catalyzed by DNA ligase. www.accessexcellence.org/.../collaboration.php

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