Semiconservative replication


SUBMITTED BY: samman

DATE: Aug. 30, 2016, 3:20 a.m.

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  1. Semiconservative replication describes the mechanism by which DNA is replicated in all known cells. It derives its name from the fact that this mechanism of replication was one of three models originally proposed[1] [2] for DNA replication:
  2. Semiconservative replication would produce two copies that each contained one of the original strands and one new strand.
  3. Conservative replication would leave the two original template DNA strands together in a double helix and would produce a copy composed of two new strands containing all of the new DNA base pairs.
  4. Dispersive replication would produce two copies of the DNA, both containing distinct regions of DNA composed of either both original strands or both new strands.
  5. The deciphering of the structure of DNA by Watson and Crick in 1953 suggested that each strand of the double helix would serve as a template for synthesis of a new strand. However, there was no way of knowing how the newly synthesized strands might combine with the template strands to form two double helical DNA molecules. The semiconservative model seemed most reasonable since it would allow each daughter strand to remain associated with its template strand. The semiconservative model was supported by the Meselson-Stahl experiment[2][3] and other even more revealing experiments that allowed for autoradiographic visualization of the distribution of old and new strands within replicated chromosomes.
  6. Experimental evidence confirmed that two lines were observed, therefore offering compelling evidence for the semi-conservative theory.

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