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W4313201866 startingPage "739190" @default.
W4313201866 abstract "The present study was conducted to evaluate the influences of five dietary manganese (Mn) sources on growth, feed utilization, lipid metabolism, antioxidant capacity, inflammatory response and endoplasmic reticulum stress in intestinal tissues of yellow catfish Pelteobagrus fulvidraco. Five Mn sources include Mn sulfate monohydrate (MnSO4·H2O), Mn dioxide (MnO2), Mn dioxide nanoparticles (MnO2NPs), Mn glycine chelate (Mn-Gly) and hydroxymethionine-chelated Mn (Mn-MHA). Yellow catfish (initial body weight: 2.69 ± 0.01 g/fish) were fed five experimental diets for 10 weeks. Dietary Mn sources significantly affected intestinal Mn content and metabolism. Compared to other Mn sources, yellow catfish fed organic Mn sources (Mn-Gly and Mn-MHA) tended to improve growth, feed utilization, intestinal histology, up-regulated mRNA abundance of tight junction-relevant genes, increased intestinal fatty acid uptake and transport and triglyceride deposition, and reduced inflammatory responses. These dietary organic Mn supplements also increased intestinal antioxidant capacity by up-regulating antioxidant gene expression and enzymatic activities. Yellow catfish fed two organic Mn diets had the lower mRNA expressions of endoplasmic reticulum stress-relevant gene and protein expression. Based on these observations above, dietary organic supplements (Mn-Gly and Mn-MHA) improved the growth and feed utilization, and promoted intestinal health of yellow catfish, and accordingly seems to be optimal Mn sources for yellow catfish. Our results provided the innovative insights into dietary Mn sources influencing tight junction, antioxidant capacity and inflammatory responses, endoplasmic reticulum stress and fatty acid uptake and uptake in the fish intestine, and found that organic Mn sources were more suitable as the Mn supplements in yellow catfish feeds, and also possibly in other aquatic feed." @default.
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W4313201866 date "2023-03-01" @default.
W4313201866 modified "2023-10-15" @default.
W4313201866 title "Influences of five dietary manganese sources on growth, feed utilization, lipid metabolism, antioxidant capacity, inflammatory response and endoplasmic reticulum stress in yellow catfish intestine" @default.
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W4313201866 cites W1978854975 @default.
W4313201866 cites W1979075662 @default.
W4313201866 cites W1984768507 @default.
W4313201866 cites W1986720971 @default.
W4313201866 cites W1989390136 @default.
W4313201866 cites W1995191011 @default.
W4313201866 cites W2001399725 @default.
W4313201866 cites W2010056678 @default.
W4313201866 cites W2024346860 @default.
W4313201866 cites W2030977032 @default.
W4313201866 cites W2038804277 @default.
W4313201866 cites W2050846695 @default.
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W4313201866 cites W2071578378 @default.
W4313201866 cites W2071717526 @default.
W4313201866 cites W2077250372 @default.
W4313201866 cites W2103900156 @default.
W4313201866 cites W2121199864 @default.
W4313201866 cites W2146213816 @default.
W4313201866 cites W2146308402 @default.
W4313201866 cites W2146714688 @default.
W4313201866 cites W2155208388 @default.
W4313201866 cites W2165711991 @default.
W4313201866 cites W2174428414 @default.
W4313201866 cites W2317877264 @default.
W4313201866 cites W2341425010 @default.
W4313201866 cites W2602683526 @default.
W4313201866 cites W2612876782 @default.
W4313201866 cites W2616818052 @default.
W4313201866 cites W2619496069 @default.
W4313201866 cites W2758049699 @default.
W4313201866 cites W2768089927 @default.
W4313201866 cites W2790965810 @default.
W4313201866 cites W2884074573 @default.
W4313201866 cites W2941701972 @default.
W4313201866 cites W2944679397 @default.
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W4313201866 cites W3094538283 @default.
W4313201866 cites W3178787221 @default.
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W4313201866 doi "https://doi.org/10.1016/j.aquaculture.2022.739190" @default.
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