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In vivo formation of arabinoxylo-oligosaccharides by dietary endo-xylanase alters arabinoxylan utilization in broilers

Dimitrios Kouzounis, Melliana C. Jonathan, Natalia Soares, Mirjam A. Kabel, Henk A. Schols

2022Carbohydrate Polymers11 citationsDOIOpen Access PDF

Abstract

Previously, arabinoxylan (AX) depolymerization by dietary endo-xylanase was observed in the broiler ileum, but released arabinoxylo-oligosaccharides (AXOS) were not characterized in detail. This study aimed at extracting and identifying AXOS released in vivo in broilers, in order to delineate the influence of endo-xylanase on AX utilization. Hereto, digesta from the gizzard, ileum, ceca and excreta of broilers fed a wheat-soybean diet without (Con) or with endo-xylanase supplementation (Enz) were assessed. Soluble AX content in the ileum was higher for Enz diet (26.9%) than for Con diet (18.8%), indicating a different type and amount of AX entering the ceca. Removal of maltodextrins and fructans enabled monitoring of AX depolymerization to AXOS (Enz diet) using HPSEC-RI and HPAEC-PAD. A recently developed HILIC-MSn methodology allowed AXOS (DP 4–10) identification in ileal digesta and excreta. Xylanase-induced AXOS formation coincided with decreased total tract AX recovery, which indicated improved AX hindgut utilization.

Topics & Concepts

ArabinoxylanXylanaseIleumChemistryBroilerDepolymerizationFood scienceCanolaIn vivoBiochemistryDigestion (alchemy)ChromatographyPolysaccharideBiologyEnzymeOrganic chemistryBiotechnologyAnimal Nutrition and PhysiologyNanocomposite Films for Food PackagingProteins in Food Systems
In vivo formation of arabinoxylo-oligosaccharides by dietary endo-xylanase alters arabinoxylan utilization in broilers | Litcius