Final answer:
Adenine always bonds with thymine, and cytosine always bonds with guanine in DNA according to Chargaff's rule. The specific base pairs (A-T and G-C) form the steps of the DNA double helix, maintaining its uniform shape.
Step-by-step explanation:
Scientists concluded that bonds between complementary bases hold together the two polynucleotide chains of DNA. Adenine always bonds with its complementary base, thymine. Cytosine always bonds with its complementary base, guanine. If you look at the nitrogen bases in the Figure above, you will see why. Adenine and guanine have a two-ring structure. Cytosine and thymine have just one ring. If adenine were to bind with guanine and cytosine with thymine, the distance between the two DNA chains would be variable. However, when a one-ring molecule binds with a two-ring molecule, the distance between the two chains is kept constant. This maintains the uniform shape of the DNA double helix. These base pairs (A-T or G-C) stick into the middle of the double helix, forming, in essence, the steps of the spiral staircase.