Answer
Interpretation of ¹H NMR Spectrum of Berberine
1. Structure & Chemical Features
- Molecular Formula: C₂₀H₁₈NO₄⁺
- Core: Tetracyclic isoquinoline alkaloid
- Features: Aromatic rings, methoxy groups, methylenedioxy bridge, quaternary nitrogen
2. Expected ¹H NMR Regions
| Region | δ (ppm) | Assignment | Type | Integration |
|---|---|---|---|---|
| Aromatic | 7.0 – 8.5 | H-1, H-4, H-5, H-7, H-8 | Multiplet | 1H each |
| Methoxy (OCH₃) | 3.9 – 4.1 | Positions 2, 3, 9, 10 | Singlet | 3H each |
| CH₂–N⁺ | 5.2 – 5.4 | Bridgehead CH₂ | Singlet | 2H |
| Aliphatic CH₂ | 2.5 – 3.0 | C-ring CH₂s | Multiplet | 2H or 4H |
3. Peak Assignments
Aromatic Region (7.0–8.5 ppm)
- H-8 → 8.25 ppm (Doublet/Multiplet)
- H-1 → 7.95 ppm (Multiplet)
- H-5, H-7 → 7.50–7.60 ppm (Doublets)
- H-4 → 7.0–7.2 ppm (Triplet/Multiplet)
Methoxy Groups (~4.0 ppm)
- OCH₃-2 → 4.00 ppm
- OCH₃-3 → 3.95 ppm
- OCH₃-9 → 3.92 ppm
- OCH₃-10 → 3.89 ppm
CH₂–N⁺ Region (~5.3 ppm)
Singlet at 5.30 ppm → Benzylic CH₂ attached to quaternary nitrogen
Aliphatic CH₂ Region (2.6–2.9 ppm)
Broad multiplet → CH₂ groups in ring C (4H total approx.)
Note: Minor variations in chemical shift are expected due to the use of MeOD-d₄ solvent and sample concentration.
Conclusion
The NMR spectrum confirms the presence of berberine with distinct and expected signals for aromatic, methoxy, bridgehead CH₂, and aliphatic protons. Each peak corresponds to specific protons in the structure. This validates the compound’s identity through spectral data.