Learning Objectives
- Distinguish between a nucleoside and a nucleotide.
- Identify the structural differences between purines and pyrimidines.
- Master the deamination reactions and their products.
- Identify the amino acid precursors required for de novo nucleotide synthesis.
Basic Building Blocks
Nucleotides are the subunits of nucleic acids, linked by 3′-5′ phosphodiester bonds.
- Nucleoside: Base + (Deoxy)ribose sugar.
- Nucleotide: Base + (Deoxy)ribose sugar + Phosphate.
- Bond Energy: The 5′ end of the incoming nucleotide bears the triphosphate, providing the energy for bond formation.
Purines vs. Pyrimidines
| Class | Bases | Structure | Mnemonic |
|---|---|---|---|
| Purines | Adenine (A), Guanine (G) | 2 Rings | “Pure As Gold“ |
| Pyrimidines | Cytosine (C), Uracil (U), Thymine (T) | 1 Ring | “CUT the Pyramid“ |
Key Specifics:
- Thymine vs. Uracil: Thymine is found in DNA; Uracil is in RNA. Thymine has a methyl group (Methylation of uracil makes thymine).
- Base Pairing: C-G pairs have 3 H-bonds; A-T pairs have 2 H-bonds. Higher C-G content increases the melting temperature ($T_m$).Mnemonic: “C-G bonds are like Crazy Glue.”
Activity
Deamination Reactions
Loss of an amino group changes the identity of the base. This is a common source of DNA damage/mutation.
- Cytosine → Uracil
- Adenine → Hypoxanthine
- Guanine → Xanthine
- 5-methylcytosine → Thymine
Precursors for De Novo Synthesis
Building these rings requires specific carbon and nitrogen donors.
Purine Synthesis
Mnemonic: “Cats purr until they GAG.”
- Glycine
- Aspartate
- Glutamine
- Plus: CO2 and THF (Tetrahydrofolate).
Pyrimidine Synthesis
- Aspartate
- Carbamoyl phosphate (derived from Glutamine and CO2).
Activity
Activity
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