3d Model Of Dna Replication. The other half of the dna double helix known as the lagging strand has the opposite 3 to 5 orientation and consequently requires a more complicated copying mechanism. To make a 3d model we need to make two strands sugar and phosphate and then pairs of nitrogenous bases adenine and thymine and cytosine and guanine.
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The other half of the dna double helix known as the lagging strand has the opposite 3 to 5 orientation and consequently requires a more complicated copying mechanism. It shows how both strands of the dna helix are unzipped and copied to produce two identical dna mole. The 3 dna strand also known as the leading strand is diverted to a dna polymerase and is used as a continuous template for the synthesis of the first daughter dna helix.
Just attach the bases like steps of a ladder between the two strands twist them and your dna model is ready.
To make a 3d model we need to make two strands sugar and phosphate and then pairs of nitrogenous bases adenine and thymine and cytosine and guanine. The other half of the dna double helix known as the lagging strand has the opposite 3 to 5 orientation and consequently requires a more complicated copying mechanism. To make a 3d model we need to make two strands sugar and phosphate and then pairs of nitrogenous bases adenine and thymine and cytosine and guanine. This 3d animation shows you how dna is copied in a cell.
