Logo de l'UMONS – Université de Mons
  • Répertoire
  • en
  • fr
  • en
  • Accueil
  • Actualités du service
  • Agenda du service
  • Activités d’enseignement
  • Activités de recherche
    • Publications
  • Équipe
  • Contacter le service
  • Nos réseaux
    • Intranet
Retourner sur le site web de l'UMONS UMONS

Service / FS – Synthèse et Spectrométrie de Masse Organiques

Retour à « Toutes les nouvelles »
  1. Accueil
  2. Deep eutectic solvents for the extraction and stabilization of Ecuadorian quinoa (Chenopodiu…
Non classé

Deep eutectic solvents for the extraction and stabilization of Ecuadorian quinoa (Chenopodium quinoa Willd.) saponins

Publié le 20 août 2022
Rédigé par Eric Weverbergh
In this work, a simple, fast (10 min) and environmentally friendly extraction method using deep eutectic solvents (DES), based on choline chloride and glycerol, was established to extract saponins from five quinoa samples...

In this work, a simple, fast (10 min) and environmentally friendly extraction method using deep eutectic solvents (DES), based on choline chloride and glycerol, was established to extract saponins from five quinoa samples: a) husks of bitter seeds, b) bitter seeds, c) water-washed bitter seeds, d) sweet seeds of the INIAP-Tunkahuan variety, and e) sweet seeds of the INIAP-Pata de Venado variety. The selected green solvent was a eutectic mixture of choline chloride – glycerol – water at a 1:2:1 M ratio. The extractions were performed in a ball mixer mill at room temperature (RT). A classical methanol – water (70:30, v/v) extraction was performed for comparison. In all quinoa samples, the characterization and relative quantification of saponins were achieved based on mass spectrometry analyses. Regardless of the type of solvent used (conventional or green solvents), hederagenin and phytolaccagenic acid were the major detected sapogenins in all tested quinoa samples. The husks of bitter seeds were the matrix with the highest saponin content. Although methanol – water (70:30, v/v) was shown to extract three times more saponins compared to DES, the green solvent offered a higher stabilization of quinoa saponin liquid extracts – up to 2 months – compared to conventional solvents (ethanol – methanol – water; 67:23:10, v/v/v). The present research shows that DES represent an efficient green media for the stabilization of bioactive saponins from quinoa and have a potential as possible alter

Relative amounts of saponins identified in the samples: water-washed bitter seeds, sweet seeds PV, and sweet seeds IT, extracted either with 70% methanol or DES2 (choline chloride - glycerol - water at a molar ratio 1:2:1). The solvent/sample ratio is 20:1 (w/w) to all samples. The structures of the different saponins are described in Table 1 n = 3 technical replicates.
Relative amounts of saponins identified in the samples: water-washed bitter seeds, sweet seeds PV, and sweet seeds IT, extracted either with 70% methanol or DES2 (choline chloride – glycerol – water at a molar ratio 1:2:1). The solvent/sample ratio is 20:1 (w/w) to all samples. The structures of the different saponins are described in Table 1 n = 3 technical replicates.

natives to organic solvents. Our work opens new perspectives for the valorization of saponin-rich quinoa by-products (the husks of bitter seeds) as components for pharmaceutical, nutraceutical and agro-food applications.

doi: 10.1016/j.jclepro.2022.132609

  • Facebook
  • LinkedIn
  • Imprimer

Navigation de l’article

Précédent Poste précédent : Poison or Potion: Effects of Sunflower Phenolamides on Bumble Bees and Their Gut Parasite
Suivant Poste suivant : Horse Chestnut Saponins–Escins, Isoescins, Transescins, and Desacylescins

En lien avec ce que vous venez de lire

  • MALDI mass spectra (positive ionization mode) of three different saponin extracts: (a) Natural extract (NE); (b) Escins I, II and III enriched-extract (EE) obtained by flash chromatography separation (non-polar column–acetonitrile gradient); (c) Microwave-assisted alkaline hydrolysis (pH 14–150 °C–5 min) reaction extract (HE). The molecular structures are schematized by highlighting the targeted functions: in EE saponins, the esters are located on C21 (Tig or Ang) and C22 or C28 (Ac); in the HE saponins, the hydrolysis products possess alcohol groups on C21, C22, and C28.
    23 février 2023

    Horse Chestnut Saponins–Escins, Isoescins, Transescins, and Desacylescins

  • Poison or Potion: Effects of Sunflower Phenolamides on Bumble Bees and Their Gut Parasite
    24 mai 2022

    Poison or Potion: Effects of Sunflower Phenolamides on Bumble Bees and Their Gut Parasite

  • Impact of the Hydrolysis and Methanolysis of Bidesmosidic Chenopodium quinoa Saponins on Their Hemolytic Activity
    24 mai 2022

    Impact of the Hydrolysis and Methanolysis of Bidesmosidic Chenopodium quinoa Saponins on Their Hemolytic Activity

Actualités

  • Horse Chestnut Saponins–Escins, Isoescins, Transescins, and Desacylescins
    Non classé

    Horse Chestnut Saponins–Escins, Isoescins, Transescins, and Desacylescins

    23 février 2023
    Escins constitute an abundant family of saponins (saponosides) and are the most active components in Aesculum hippocastanum (horse chestnut—HC) seeds. They are of great pharmaceutical interest as a short-term treatment for venous insufficiency. ... Poursuivre la lecture
  • Poison or Potion: Effects of Sunflower Phenolamides on Bumble Bees and Their Gut Parasite
    Non classé

    Poison or Potion: Effects of Sunflower Phenolamides on Bumble Bees and Their Gut Parasite

    24 mai 2022
    In this work, we tested the impacts of sunflower phenolamides on healthy and parasite infected buff-tailed bumble bees. Expectedly, sunflower pollen had harmful consequences on bumble bee development but surprisingly, it did not alter parasite load. By contrast, sunflower phenolamides had milder effects on bumble bee development but unexpectedly increased parasite load. Poursuivre la lecture
  • Impact of the Hydrolysis and Methanolysis of Bidesmosidic Chenopodium quinoa Saponins on Their Hemolytic Activity
    Recherche

    Impact of the Hydrolysis and Methanolysis of Bidesmosidic Chenopodium quinoa Saponins on Their Hemolytic Activity

    24 mai 2022
    Saponins are specific metabolites abundantly present in plants and several marine animals. Their high cytotoxicity is associated with their membranolytic properties, i.e., their propensity to disrupt cell membranes upon incorporation. ... Poursuivre la lecture
UMONS logo
Avenue Maistriau , 15
7000 Mons
Belgique
Tél. : +32 (0)65 37 33 42
Contacts généraux
© UMONS 2026
Chatbot UMONS Uguette, votre assistante virtuelle
NEW : Parler avec Uguette, votre assistante virtuelle !
Uguette, votre assistante virtuelle