FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2040078846> ?p ?o ?g. }

• W2040078846 endingPage "51" @default.
• W2040078846 startingPage "42" @default.
• W2040078846 abstract "The objective was to study the effect of diets containing microwave-treated wheat and supplemental enzymes on myo-inositol 1,2,3,4,5,6-hexakis (dihydrogen phosphate) (InsP6) hydrolysis and the presence of inositol phosphate isomers (InsPs) in the small intestine of broilers. We assigned 16-day-old broilers to 48 pens of 15 broilers each (n = 8 pens per treatment) in a 2 × 3 factorial arrangement of treatments. Birds were fed a wheat-soybean meal diet that was low in phosphorus (4.8 g/kg dry matter) and that contained either microwave-treated (BDTW) or untreated (BDUTW) ground wheat. Diets were used without an enzyme supplement or after supplementation with an E. coli-derived phytase, alone or in combination with a xylanase. On d 23, samples of digesta from the duodenum/jejunum and lower ileum were pooled per segment on a pen basis, freeze-dried, and analyzed for P, InsPs, and the marker TiO2. Statistical significance was evaluated by a two-way analysis of variance. Microwaving affected dietary intrinsic phytase activity (BDUTW: 623 U/kg; BDTW: 121 U/kg). Interactions between microwave treatment and enzyme supplementation were found for InsP6 hydrolysis (P=0.048) and P net absorption (P=0.004) in the ileum. In both segments, InsP6 hydrolysis (duodenum/jejunum: P=0.004, ileum: P=0.002) and P net absorption (P≤0.001) were significantly increased by supplementation of phytase, but no further increments were caused by supplemental xylanase. The significant interaction on InsP6 hydrolysis in the ileum was due to a higher InsP6 hydrolysis for BDTW (78%) than for BDUTW (69%) in the absence of supplemental phytase. In birds that were fed the phytase-supplemented diets, microwave treatment of wheat had no effect on InsP6 hydrolysis. The significant interaction on P net absorption in the ileum was due to reduced P net absorption by microwave treatment in the presence but not absence of supplemental phytase. Broilers and their gut microbiota have a high potential to hydrolyze InsP6 in the intestine. Microwaving may have disrupted wheat aleurone structures in ways that increased accessibility of InsP6 and may have encouraged higher levels of activity among specific phytases of microbial or endogenous mucosal origin in the lower small intestine. Accumulation of InsP3 in the duodenum/jejunum for microwave-treated diets suggested that such treatment reduces the effectiveness of the phosphatases that further degrade InsP3 (P=0.004)." @default.
• W2040078846 created "2016-06-24" @default.
• W2040078846 creator A5029586105 @default.
• W2040078846 creator A5045493394 @default.
• W2040078846 creator A5063826105 @default.
• W2040078846 creator A5081627994 @default.
• W2040078846 date "2015-06-01" @default.
• W2040078846 modified "2023-09-25" @default.
• W2040078846 title "Effect of diets containing enzyme supplements and microwave-treated or untreated wheat on inositol phosphates in the small intestine of broilers" @default.
• W2040078846 cites W1921486342 @default.
• W2040078846 cites W1947310640 @default.
• W2040078846 cites W1970709291 @default.
• W2040078846 cites W1974815801 @default.
• W2040078846 cites W1975926798 @default.
• W2040078846 cites W1977814965 @default.
• W2040078846 cites W1981582783 @default.
• W2040078846 cites W1993811624 @default.
• W2040078846 cites W2009956821 @default.
• W2040078846 cites W2011298114 @default.
• W2040078846 cites W2026184252 @default.
• W2040078846 cites W2029329199 @default.
• W2040078846 cites W2030237263 @default.
• W2040078846 cites W2064364009 @default.
• W2040078846 cites W2072366228 @default.
• W2040078846 cites W2073078255 @default.
• W2040078846 cites W2077713430 @default.
• W2040078846 cites W2083902581 @default.
• W2040078846 cites W2089663538 @default.
• W2040078846 cites W2091114919 @default.
• W2040078846 cites W2091318593 @default.
• W2040078846 cites W2094309439 @default.
• W2040078846 cites W2100032196 @default.
• W2040078846 cites W2101180485 @default.
• W2040078846 cites W2108140877 @default.
• W2040078846 cites W2117208761 @default.
• W2040078846 cites W2118305361 @default.
• W2040078846 cites W2128304878 @default.
• W2040078846 cites W2131237467 @default.
• W2040078846 cites W2132340309 @default.
• W2040078846 cites W2149982635 @default.
• W2040078846 cites W2151368817 @default.
• W2040078846 cites W2153927843 @default.
• W2040078846 cites W2157702079 @default.
• W2040078846 cites W2167433330 @default.
• W2040078846 doi "https://doi.org/10.1016/j.anifeedsci.2015.03.007" @default.
• W2040078846 hasPublicationYear "2015" @default.
• W2040078846 type Work @default.
• W2040078846 sameAs 2040078846 @default.
• W2040078846 citedByCount "17" @default.
• W2040078846 countsByYear W20400788462015 @default.
• W2040078846 countsByYear W20400788462016 @default.
• W2040078846 countsByYear W20400788462017 @default.
• W2040078846 countsByYear W20400788462018 @default.
• W2040078846 countsByYear W20400788462019 @default.
• W2040078846 countsByYear W20400788462020 @default.
• W2040078846 countsByYear W20400788462021 @default.
• W2040078846 countsByYear W20400788462022 @default.
• W2040078846 crossrefType "journal-article" @default.
• W2040078846 hasAuthorship W2040078846A5029586105 @default.
• W2040078846 hasAuthorship W2040078846A5045493394 @default.
• W2040078846 hasAuthorship W2040078846A5063826105 @default.
• W2040078846 hasAuthorship W2040078846A5081627994 @default.
• W2040078846 hasConcept C109551439 @default.
• W2040078846 hasConcept C126322002 @default.
• W2040078846 hasConcept C140793950 @default.
• W2040078846 hasConcept C178790620 @default.
• W2040078846 hasConcept C181199279 @default.
• W2040078846 hasConcept C185592680 @default.
• W2040078846 hasConcept C206139338 @default.
• W2040078846 hasConcept C2775859485 @default.
• W2040078846 hasConcept C2776366702 @default.
• W2040078846 hasConcept C2776371603 @default.
• W2040078846 hasConcept C2776809568 @default.
• W2040078846 hasConcept C2777226302 @default.
• W2040078846 hasConcept C2777882243 @default.
• W2040078846 hasConcept C2778036281 @default.
• W2040078846 hasConcept C2780138947 @default.
• W2040078846 hasConcept C31903555 @default.
• W2040078846 hasConcept C55493867 @default.
• W2040078846 hasConcept C71924100 @default.
• W2040078846 hasConcept C86803240 @default.
• W2040078846 hasConcept C94412978 @default.
• W2040078846 hasConceptScore W2040078846C109551439 @default.
• W2040078846 hasConceptScore W2040078846C126322002 @default.
• W2040078846 hasConceptScore W2040078846C140793950 @default.
• W2040078846 hasConceptScore W2040078846C178790620 @default.
• W2040078846 hasConceptScore W2040078846C181199279 @default.
• W2040078846 hasConceptScore W2040078846C185592680 @default.
• W2040078846 hasConceptScore W2040078846C206139338 @default.
• W2040078846 hasConceptScore W2040078846C2775859485 @default.
• W2040078846 hasConceptScore W2040078846C2776366702 @default.
• W2040078846 hasConceptScore W2040078846C2776371603 @default.
• W2040078846 hasConceptScore W2040078846C2776809568 @default.
• W2040078846 hasConceptScore W2040078846C2777226302 @default.
• W2040078846 hasConceptScore W2040078846C2777882243 @default.
• W2040078846 hasConceptScore W2040078846C2778036281 @default.
• W2040078846 hasConceptScore W2040078846C2780138947 @default.
• W2040078846 hasConceptScore W2040078846C31903555 @default.

• next