Research Article
In Vivo and In Silico Assessment of Diabetes Ameliorating Potentiality and Safety Profile of Gynura procumbens Leaves
Table 9
Binding affinity of natural ligands of G. procumbens with the crystal target alpha-amylase.
| Compound name | Binding affinity | Class of compounds |
| Daucosterol | −10.5 | Steroid | Glucopyranosyl stigmasterol | −9.9 | Steroid | 1,5-Dicaffeoylquinic acid | −9.6 | Phenol | 3,5-Dicaffeoylquinic acid | −9.6 | Phenol | Luteolin | −9.5 | Flavonoid | Beta-stigmasterol | −9.5 | Steroid | 3,4-Dicaffeoylquinic acid | −9.4 | Phenol | Eriocitrin | −9.4 | Flavonoid | Apigenin | −9.3 | Flavonoid | Rutin | −9.3 | Flavonoid | Quercetin | −9.2 | Flavonoid | Homoorientin | −9.1 | Flavonoid | Nicotiflorin | −9.1 | Flavonoid | 5α-Stigmastan-3-one | −9.1 | Steroid | 4,5-Dicaffeoylquinic acid | −9.1 | Phenol | Myricetin | −9 | Flavonoid | 1,4-Dicaffeoylquinic acid | −8.9 | Phenol | Kaempferol | −8.8 | Flavonoid | Glucuronide | −8.8 | Phenol | Negletein | −8.7 | Flavonoid | Senecivernine | −8.6 | Alkaloid | Seneciphylline | −8.5 | Alkaloid | Astragalin | −8.4 | Flavonoid | Senkirkine | −8.3 | Alkaloid | Senecionine-N-oxide | −8.3 | Alkaloid | Erucifoline-N-oxide | −8.1 | Alkaloid | Retrorsine | −8.1 | Alkaloid | Neochlorogenic acid | −8 | Phenolic | Seneciphylline-N-oxide | −8 | Alkaloid | Chlorogenic acid | −7.9 | Phenol | Feruloylquinic acid | −7.7 | Phenol | Acarbose | −7.6 | Reference |
|
|