Based on preparation of co-fermented defatted rice bran(DFRB)using Bacillus subtilis,Saccharomyces cerevisiae,Lactobacillus plantarum and phytase,the present study aimed to evaluate the effects of cofermented DFRB on ...Based on preparation of co-fermented defatted rice bran(DFRB)using Bacillus subtilis,Saccharomyces cerevisiae,Lactobacillus plantarum and phytase,the present study aimed to evaluate the effects of cofermented DFRB on growth performance,antioxidant capacity,immune status,gut microbiota and permeability in finishing pigs.Ninety finishing pigs(85.30±0.97 kg)were randomly assigned to 3treatments(3 replicates/treatment)with a basal diet(Ctrl),a basal diet supplemented with 10% unfermented DFRB(UFR),and a basal diet supplemented with 10% fermented DFRB(FR)for 30 d.Results revealed that the diet supplemented with FR notably(P<0.05)improved the average daily gain(ADG),gain to feed ratio(G:F)and the digestibility of crude protein,amino acids and dietary fiber of finishing pigs compared with UFR.Additionally,FR supplementation significantly(P<0.05)increased total antioxidant capacity,the activities of superoxide dismutase and catalase,and decreased the content of malonaldehyde in serum.Furthermore,FR remarkably(P<0.05)increased serum levels of Ig G,antiinflammatory cytokines(IL-22 and IL-23)and reduced pro-inflammatory cytokines(TNF-α,IL-1β and INF-γ).The decrease of serum diamine oxidase activity and serum D-lactate content in the FR group(P<0.05)suggested an improvement in intestinal permeability.Supplementation of FR also elevated the content of acetate and butyrate in feces(P<0.05).Moreover,FR enhanced gut microbial richness and the abundance of fiber-degrading bacteria such as Clostridium butyricum and Lactobacillus amylovorus.Correlation analyses indicated dietary fiber in FR was associated with improvements in immune status,intestinal permeability and the level of butyrate-producing microbe C.butyricum,which was also verified by the in vitro fermentation analysis.These findings provided an experimental and theoretical basis for the application of fermented DFRB in finishing pigs.展开更多
基金Science and Technology Projects of Zhejiang(2022C02043,2021C02008,CTZB-2020080127)China Agriculture Research System(CARS-35)National Center of Technology Innovation for Pigs。
文摘Based on preparation of co-fermented defatted rice bran(DFRB)using Bacillus subtilis,Saccharomyces cerevisiae,Lactobacillus plantarum and phytase,the present study aimed to evaluate the effects of cofermented DFRB on growth performance,antioxidant capacity,immune status,gut microbiota and permeability in finishing pigs.Ninety finishing pigs(85.30±0.97 kg)were randomly assigned to 3treatments(3 replicates/treatment)with a basal diet(Ctrl),a basal diet supplemented with 10% unfermented DFRB(UFR),and a basal diet supplemented with 10% fermented DFRB(FR)for 30 d.Results revealed that the diet supplemented with FR notably(P<0.05)improved the average daily gain(ADG),gain to feed ratio(G:F)and the digestibility of crude protein,amino acids and dietary fiber of finishing pigs compared with UFR.Additionally,FR supplementation significantly(P<0.05)increased total antioxidant capacity,the activities of superoxide dismutase and catalase,and decreased the content of malonaldehyde in serum.Furthermore,FR remarkably(P<0.05)increased serum levels of Ig G,antiinflammatory cytokines(IL-22 and IL-23)and reduced pro-inflammatory cytokines(TNF-α,IL-1β and INF-γ).The decrease of serum diamine oxidase activity and serum D-lactate content in the FR group(P<0.05)suggested an improvement in intestinal permeability.Supplementation of FR also elevated the content of acetate and butyrate in feces(P<0.05).Moreover,FR enhanced gut microbial richness and the abundance of fiber-degrading bacteria such as Clostridium butyricum and Lactobacillus amylovorus.Correlation analyses indicated dietary fiber in FR was associated with improvements in immune status,intestinal permeability and the level of butyrate-producing microbe C.butyricum,which was also verified by the in vitro fermentation analysis.These findings provided an experimental and theoretical basis for the application of fermented DFRB in finishing pigs.
