DNA is made up of molecules called nucleotides. Nucleotides consist of a nitrogen base (adenine, thymine, guanine, cytosine) a 5-carbon sugar and a phosphate group. The complementary base pairings are bonded by hydrogen bonds. The two types of nitrogenous bases are purines (single ring – shown with one bead) and pyrimidines (double ring – shown with two beads) match up with each other. Adenine and guanine are purines and thymine and cytosine are pyrimidines. The pairings are adenine and thymine, guanine and cytosine. The order of the nitrogenous bases determines the DNA’s instructions or genetic code. The strands of DNA are antiparallel, the opposite orientation of the sugar molecule. This allows the bases to pair, hydrogen bond and be more structurally stable.
*Note: The strands are not antiparallel in the photo as there are phosphates on all ends of the backbone, but there should only be one on each strand on opposing sides.
The model shows the basic structure of DNA including the nitrogenous base pairings, antiparallel strands and nucleotides. It also gives a visual representation of the phosphate group, but does not clearly show the sugar group. In DNA, the deoxyribose sugar and phosphate are more “branched/connected” instead of being “ontop.” The hydrogen bonds could have been made more clear than hooking the white pipe cleaners together, like adding a different colour bead to show where the bond forms. Adenine and thymine only have 2 hydrogen bonds whereas guanine and cytosine have 3. Using beads to show the hydrogen bonds could also indicate the number of bonds by using the specific number.
*Note: Adenine=yellow (double), Thymine=blue, Guanine=purple (double), Cytosine=green
-We mixed up the pairings, we had A-G and T-C, should be A-T and G-C