Unlimited recycling counter-current chromatography for the preparative separation of natural products: Naphthaquinones as examples

•The in situ concentration technique compressed effluent with separation effect.•Unlimited recycling CCC was achieved by in situ concentration and recycling elution.•URCCC strategy could increase recycling times until satisfied separation achieved.•Naphthaquinones were isolated by URCCC with excelle...

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Bibliographic Details
Published in:Journal of Chromatography A 2020-08, Vol.1626, p.461368, Article 461368
Main Authors: He, Jian-Ming, Huang, Jiao, Wu, Wei-Lin, Mu, Qing
Format: Article
Language:English
Subjects:
Counter-current chromatography
In situ concentration
Naphthaquinones
Unlimited recycling chromatography (URCCC)
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Summary:•The in situ concentration technique compressed effluent with separation effect.•Unlimited recycling CCC was achieved by in situ concentration and recycling elution.•URCCC strategy could increase recycling times until satisfied separation achieved.•Naphthaquinones were isolated by URCCC with excellent resolution and yield (89.6%).•The new strategy greatly expanded the application of CCC in preparative separation. Recycling counter-current chromatography (CCC) has been developed and widely used in preparative separation. Due to increasingly broader peaks with longer elution times, recycling elution must be stopped before a peak overlap occurs, resulting in the insufficient separation of target compounds. In this study, the concept of in situ concentration was proposed, and the corresponding technique was designed to compress the effluents with the reserved separation effect (peak resolution). By combining this technique with multi-stage recycling elution, a novel unlimited recycling CCC (URCCC) strategy was developed to overcome the recycling time limitation to improve the resolution. The URCCC strategy was successfully applied in the preparative separation of naturally occurring naphthaquinones, where the in situ concentration was used two times with three-stage recycling CCC elution. Finally, isobutyrylshikonin (1), β, β-dimethylacrylshikonin (2) and isovalerylshikonin (3) were separated with high resolutions (R1,2 = 1.38 and R2,3 = 1.26). A high yield of pure naphthaquinones was achieved (89.6%), and the purity of each exceeded 98%. In conclusion, the URCCC strategy can improve the recycling elution times until the target compounds achieve sufficient separation, which may enable a broader range of application in structurally related compounds separation, especially in natural product separation.
ISSN:0021-9673
DOI:10.1016/j.chroma.2020.461368