Literature DB >> 29051666

Enzymatic pectic oligosaccharides (POS) production from sugar beet pulp using response surface methodology.

Neha Babbar1,2, Winnie Dejonghe1, Stefano Sforza2, Kathy Elst1.   

Abstract

Pectic oligosaccharides (POS) have been indicated as novel candidate prebiotics. Traditionally, POS are produced from pectin-rich by-products using a two-step process involving extraction of the pectin, followed by its hydrolysis into POS. A one-step approach, in which the POS is directly produced from the raw material, might provide a more efficient alternative. Thus, the main aim of this paper was to investigate a one-step enzymatic hydrolysis approach to directly produce POS from sugar beet pulp (SBP). The POS yield was investigated as a function of the process parameters, as well as raw material characteristics. A statistically-based response surface methodology, using a central composite design was applied, to investigate the individual as well as the combined influences of the diverse parameters. The model was confirmed by a validation experiment, carried out at 135 g/l substrate concentration, 0.75 FPU/g SBP enzyme concentration, 0.8 mm particle size and 3 h hydrolysis time. Under these conditions, a POS-rich hydrolysate was obtained, containing rhamnose, arabinose, galactose, xylose and galacturonic acid, at 0.9, 15.2, 5.1, 1.4, and 13.2 g/l, respectively, enzymes were added each at 20 FPU/g dry matter (DM).

Entities:  

Keywords:  Central composite design; One-step hydrolysis; Pectic oligosaccharides; Response surface methodology; Sugar beet pulp; Yield optimization

Year:  2017        PMID: 29051666      PMCID: PMC5629180          DOI: 10.1007/s13197-017-2835-x

Source DB:  PubMed          Journal:  J Food Sci Technol        ISSN: 0022-1155            Impact factor:   2.701


  16 in total

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Authors:  M A H M Al-Tamimi; R J Palframan; J M Cooper; G R Gibson; R A Rastall
Journal:  J Appl Microbiol       Date:  2006-02       Impact factor: 3.772

2.  Direct enzymatic production of oligosaccharide mixtures from sugar beet pulp: experimental evaluation and mathematical modeling.

Authors:  Martina Martínez; Beatriz Gullón; Remedios Yáñez; José Luis Alonso; Juan Carlos Parajó
Journal:  J Agric Food Chem       Date:  2009-06-24       Impact factor: 5.279

3.  Continuous Hydrolysis of Pectate by Immobilized Endo-polygalacturonase in a Continuously Stirred Tank Reactor.

Authors:  K Iwasaki; M Inoue; Y Matsubara
Journal:  Biosci Biotechnol Biochem       Date:  1998       Impact factor: 2.043

4.  Pectin content and composition from different food waste streams.

Authors:  Judith Müller-Maatsch; Mariangela Bencivenni; Augusta Caligiani; Tullia Tedeschi; Geert Bruggeman; Montse Bosch; Janos Petrusan; Bart Van Droogenbroeck; Kathy Elst; Stefano Sforza
Journal:  Food Chem       Date:  2016-01-06       Impact factor: 7.514

5.  Ethanol production from orange peels: two-stage hydrolysis and fermentation studies using optimized parameters through experimental design.

Authors:  Harinder Singh Oberoi; Praveen Venkata Vadlani; Ronald L Madl; Lavudi Saida; Jithma P Abeykoon
Journal:  J Agric Food Chem       Date:  2010-03-24       Impact factor: 5.279

6.  Comparison of the in vitro bifidogenic properties of pectins and pectic-oligosaccharides.

Authors:  E Olano-Martin; G R Gibson; R A Rastell
Journal:  J Appl Microbiol       Date:  2002       Impact factor: 3.772

7.  Inhibition by pectic oligosaccharides of the invasion of undifferentiated and differentiated Caco-2 cells by Campylobacter jejuni.

Authors:  M Ganan; M Collins; R Rastall; A T Hotchkiss; H K Chau; A V Carrascosa; A J Martinez-Rodriguez
Journal:  Int J Food Microbiol       Date:  2009-12-13       Impact factor: 5.277

8.  Enzymatic saccharification of sugar beet pulp for the production of galacturonic acid and arabinose; a study on the impact of the formation of recalcitrant oligosaccharides.

Authors:  A G M Leijdekkers; J P M Bink; S Geutjes; H A Schols; H Gruppen
Journal:  Bioresour Technol       Date:  2012-11-05       Impact factor: 9.642

9.  Enzymatic production of pectic oligosaccharides from onion skins.

Authors:  Neha Babbar; Stefania Baldassarre; Miranda Maesen; Barbara Prandi; Winnie Dejonghe; Stefano Sforza; Kathy Elst
Journal:  Carbohydr Polym       Date:  2016-03-14       Impact factor: 9.381

10.  Aiming for the complete utilization of sugar-beet pulp: Examination of the effects of mild acid and hydrothermal pretreatment followed by enzymatic digestion.

Authors:  Stefan Kühnel; Henk A Schols; Harry Gruppen
Journal:  Biotechnol Biofuels       Date:  2011-05-31       Impact factor: 6.040
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Journal:  J Food Sci Technol       Date:  2020-01-20       Impact factor: 2.701

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3.  Optimization of Oligosaccharide Production from Leuconostoc lactis Using a Response Surface Methodology and the Immunostimulating Effects of These Oligosaccharides on Macrophage Cells.

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Journal:  Molecules       Date:  2018-08-23       Impact factor: 4.411

Review 4.  Plant Prebiotics and Their Role in the Amelioration of Diseases.

Authors:  Amrit Pal Kaur; Sonali Bhardwaj; Daljeet Singh Dhanjal; Eugenie Nepovimova; Natália Cruz-Martins; Kamil Kuča; Chirag Chopra; Reena Singh; Harsh Kumar; Fatih Șen; Vinod Kumar; Rachna Verma; Dinesh Kumar
Journal:  Biomolecules       Date:  2021-03-16

5.  Crude Pectic Oligosaccharide Recovery from Thai Chok Anan Mango Peel Using Pectinolytic Enzyme Hydrolysis.

Authors:  Malaiporn Wongkaew; Bow Tinpovong; Korawan Sringarm; Noppol Leksawasdi; Kittisak Jantanasakulwong; Pornchai Rachtanapun; Prasert Hanmoungjai; Sarana Rose Sommano
Journal:  Foods       Date:  2021-03-16

Review 6.  The Dietary Fiber Pectin: Health Benefits and Potential for the Treatment of Allergies by Modulation of Gut Microbiota.

Authors:  Frank Blanco-Pérez; Hanna Steigerwald; Stefan Schülke; Stefan Vieths; Masako Toda; Stephan Scheurer
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