Steve Hisiger scite author profile

Catharanthus roseus is a medicinal plant from which secondary metabolites used in chemotherapy to treat diverse cancers are extracted. The well known high value metabolites vincristine and vinblastine are just 2 of 130 alkaloids that can be found in C. roseus. However, only few (~11) of this high number of chemical entities are frequently analyzed and even fewer (~8) are available commercially. For more than 30 years, different analytical techniques have been developed to isolate and identify C. roseus metabolites, and then allowing revealing the therapeutic potential of C. roseus metabolites. Among few approaches, high performance liquid chromatography (HPLC) technique is still widely used for the separation and analysis of secondary metabolites such as those from C. roseus. This article thus reviews the most recent developments in HPLC analysis of alkaloids from C. roseus. Diverse considerations that are crucial to the efficiency of secondary metabolites separation and identification steps, such as biomass manipulation, extraction phase and protocols, HPLC separation and analysis protocols are reviewed in details.Examples of spectra obtained using the most common detectors are also shown and suggestions are made on how to proceed in developing efficient separation and identification methods at the analytical and semi-preparative scales.

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Fractionation and characterization of chitosan by analytical SEC and 1H NMR after semi-preparative SEC

Nguyen

Hisiger

Jolicœur

et al. 2009

Carbohydrate Polymers

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A multiwavelength fluorescence probe: Is one probe capable for on-line monitoring of recombinant protein production and biomass activity?

Hisiger

Jolicœur

2005

Journal of Biotechnology

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Continuous Selective Extraction of Secondary Metabolites from Catharanthus roseus Hairy Roots with Silicon Oil in a Two‐Liquid‐Phase Bioreactor

Tikhomiroff

Allais

Klvana

et al. 2002

Biotechnology Progress

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A two-liquid-phase bioreactor was designed to extract indole alkaloids from Catharanthus roseus hairy roots with silicon oil. Partition studies between silicon oil and culture medium showed that the silicon oil did not alter the availability of nutrients. The affinity of tabersonine and löchnericine for silicon oil is nine times higher than for the aqueous phase. Cultures were elicited with 25 mg/L of jasmonic acid. The growth of the hairy roots was not significantly modified by the presence of silicon oil. The overall specific yields of tabersonine and löchnericine were increased by 100-400% and 14-200%, respectively, with the use of silicon oil in nonelicited control cultures. In elicited cultures, these values were 10-55% for tabersonine and 20-65% for löchnericine. Serpentine was never found in the silicon oil. All measured alkaloids' specific yields were higher using silicon oil and elicitation, suggesting that the silicon oil, while acting as a metabolic sink for tabersonine and löchnericine, was efficient in increasing metabolic fluxes of the secondary metabolism pathways.

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Na-butyrate sustains energetic states of metabolism and t-PA productivity of CHO cells

McMurray-Beaulieu

Hisiger

Durand

et al. 2009

Journal of Bioscience and Bioengineering

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Steve Hisiger

Analysis of Catharanthus roseus alkaloids by HPLC

Fractionation and characterization of chitosan by analytical SEC and 1H NMR after semi-preparative SEC

A multiwavelength fluorescence probe: Is one probe capable for on-line monitoring of recombinant protein production and biomass activity?

Continuous Selective Extraction of Secondary Metabolites from Catharanthus roseus Hairy Roots with Silicon Oil in a Two‐Liquid‐Phase Bioreactor

Na-butyrate sustains energetic states of metabolism and t-PA productivity of CHO cells

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