In a DNA molecule, the "ladder legs" refer to the sugar-phosphate backbone, which consists of alternating sugar (deoxyribose) and phosphate groups. The "rungs" of the ladder are the nitrogenous bases (adenine, thymine, cytosine, and guanine) that pair specifically (adenine with thymine, and cytosine with guanine) through hydrogen bonds, connecting the two strands of the DNA double helix. This structure allows for the storage of genetic information and the replication of DNA during cell division.
DNA code is simple in structure.The double helix structure of the DNA molecule is like a long ladder twisted into a spiral.
The enzyme helicase separates the nitrogen base pairs, or rungs, of the DNA ladder.
what are 4 bases that make up the rungs of the DNA ladder
Yes, the rungs of the DNA ladder consist of pairs of nitrogen bases.
The rungs of the DNA ladder are composed of alternating deoxyribose sugar molecules and phosphate groups.
The rungs that are in the DNA ladder molecule are nucleotides. They are adenine, guanine, thymine and cytosine. Deoxyribose and phosphate make up the backbone of the molecule.
The base of the nucleotides
what are 4 bases that make up the rungs of the DNA ladder
what are 4 bases that make up the rungs of the DNA ladder
The enzyme helicase separates the nitrogen base pairs, or rungs, of the DNA ladder.
DNA code is simple in structure.The double helix structure of the DNA molecule is like a long ladder twisted into a spiral.
Yes, the rungs of the DNA ladder consist of pairs of nitrogen bases.
The rugs of DNA are Adenine, Guanine, Cytosine, and Thymine. When DNA replication occurs and the ladder has to be broken, an enzyme called "helicase" starts at the replication fork and unwinds the DNA ladder. Helicase breaks the rugs of DNA.
They are nitrogen bases.
nucleotitdes
The rungs of the DNA ladder are composed of alternating deoxyribose sugar molecules and phosphate groups.
On the side parts of the ladder-like DNA molecule, you will find the sugar-phosphate backbone, which provides structural support to the molecule. The sugar-phosphate backbone serves as the outer framework that holds the nitrogenous bases together in the DNA double helix.