The physicochemical properties and composition of coix seed oil produced by Monascus purpureus fermentation and supercritical CO_(2)extraction were determined.Anti-lipid-oxidation and edible safety were evaluated usin...The physicochemical properties and composition of coix seed oil produced by Monascus purpureus fermentation and supercritical CO_(2)extraction were determined.Anti-lipid-oxidation and edible safety were evaluated using a cholesterol-fish oil model,acute oral toxicity assay,and genetic toxicity assay in vitro and in vivo,respectively.The results show that the extraction oil from fermented coix seed(FCS-O)had good physicochemical quality and abundant active components with physiological function.In particular,γ-tocotrienol,γ-oryzanol,coixenolide and oleic acid concentrations reached 72.83μg/g,745.96μg/g,9.65 mg/g and 316.58 mg/100 g DW,respectively.The FCS-O exhibited higher antioxidant capability in inhibiting lipid oxidation and peroxidation.Compared to the blank control,the concentrations of 7-ketocholestreol and peroxide only were 8.42μg/mL and 16.16 mmol/kg at 168 h of oxidation(P<0.01).In addition,the FCS-O has been confirmed to be a very safe edible oil,with no acute toxicity(LD50>10 g/kg bw,considered actually non-toxic)and no induced mutagenicity,cytotoxicity or genotoxicity.These results serve as a good safety reference for future application of the oil from fermented coix seed.The development and utilization of this kind of oil will be beneficial as a food,food ingredient,nutritional supplement,or natural food antioxidant to promote good health function.展开更多
Compared with the rice-acid soup inoculated with single starter,the synergistically intensifi ed rice-acid soup inoculated with Lactobacillus paracasei H4-11(L.paracasei H4-11)and Kluyveromyces marxianus L1-1(K.marxia...Compared with the rice-acid soup inoculated with single starter,the synergistically intensifi ed rice-acid soup inoculated with Lactobacillus paracasei H4-11(L.paracasei H4-11)and Kluyveromyces marxianus L1-1(K.marxianus L1-1)contained more fl avor compounds.Organic acids mainly included L-lactic acid and the main volatile fl avor component was ethyl acetate.Moreover,the signal intensity of astringency and bitterness and the total concentration of volatile sulfur compounds were reduced.The combined analysis results of RNA sequencing(RNA-seq)technology and 4D label-free quantitative(4D LFQ)proteomics explained the fl avor formation pathways in rice-acid soup inoculated with L.paracasei H4-11 and K.marxianus L1-1.In L.paracasei H4-11,L-lactate dehydrogenase,phosphoglucomutase,acetate kinase,alcohol dehydrogenase and acetyl-CoA were up-regulated and D-lactate dehydrogenase and N-Acetyltransferase were down-regulated.In K.marxianus L1-1,Acetyl-CoA,acetaldehyde dehydrogenase,acyl-coenzyme A,N-acetyltransferase,and L-lactate dehydrogenase were up-regulated and hexokinase,alcohol dehydrogenase,and alcohol O-acetyltransferase were down-regulated.The above up-regulation and down-regulation synergistically promoted the formation of characteristic fl avor compounds(mainly L-lactic acid and ethyl acetate).Enzyme-linked immunoassay(ELISA)and parallel reaction monitoring(PRM)quantitative analysis respectively verifi ed that 5 key metabolic enzymes and 27 proteins in L.paracasei H4-11 and K.marxianus L1-1 were associated with the characteristic fl avor of rice-acid soup,as confi rmed by the quantitative results of 4D LFQ.展开更多
基金supported by Natural Science Foundation of China(32260583)the Agriculture Committee of Guizhou Province[(2017)106&(2018)81]the Talent Introduction Program of Guizhou University[(2021)76].
文摘The physicochemical properties and composition of coix seed oil produced by Monascus purpureus fermentation and supercritical CO_(2)extraction were determined.Anti-lipid-oxidation and edible safety were evaluated using a cholesterol-fish oil model,acute oral toxicity assay,and genetic toxicity assay in vitro and in vivo,respectively.The results show that the extraction oil from fermented coix seed(FCS-O)had good physicochemical quality and abundant active components with physiological function.In particular,γ-tocotrienol,γ-oryzanol,coixenolide and oleic acid concentrations reached 72.83μg/g,745.96μg/g,9.65 mg/g and 316.58 mg/100 g DW,respectively.The FCS-O exhibited higher antioxidant capability in inhibiting lipid oxidation and peroxidation.Compared to the blank control,the concentrations of 7-ketocholestreol and peroxide only were 8.42μg/mL and 16.16 mmol/kg at 168 h of oxidation(P<0.01).In addition,the FCS-O has been confirmed to be a very safe edible oil,with no acute toxicity(LD50>10 g/kg bw,considered actually non-toxic)and no induced mutagenicity,cytotoxicity or genotoxicity.These results serve as a good safety reference for future application of the oil from fermented coix seed.The development and utilization of this kind of oil will be beneficial as a food,food ingredient,nutritional supplement,or natural food antioxidant to promote good health function.
基金funded by National Natural Science Foundation of China(32060530)Guizhou University,Gui Da Te Gang He Zi(2022)39,Science and Technology Project of Guizhou Province,Qian Ke He Zhicheng[2022]Zhongdian 001-2,Qian Ke He Zhicheng[2022]Zhongdian 003-3+1 种基金Industry-University-Research Cooperation Project of Guizhou University(701/700465172217)China Scholarship Council(201906670006).
文摘Compared with the rice-acid soup inoculated with single starter,the synergistically intensifi ed rice-acid soup inoculated with Lactobacillus paracasei H4-11(L.paracasei H4-11)and Kluyveromyces marxianus L1-1(K.marxianus L1-1)contained more fl avor compounds.Organic acids mainly included L-lactic acid and the main volatile fl avor component was ethyl acetate.Moreover,the signal intensity of astringency and bitterness and the total concentration of volatile sulfur compounds were reduced.The combined analysis results of RNA sequencing(RNA-seq)technology and 4D label-free quantitative(4D LFQ)proteomics explained the fl avor formation pathways in rice-acid soup inoculated with L.paracasei H4-11 and K.marxianus L1-1.In L.paracasei H4-11,L-lactate dehydrogenase,phosphoglucomutase,acetate kinase,alcohol dehydrogenase and acetyl-CoA were up-regulated and D-lactate dehydrogenase and N-Acetyltransferase were down-regulated.In K.marxianus L1-1,Acetyl-CoA,acetaldehyde dehydrogenase,acyl-coenzyme A,N-acetyltransferase,and L-lactate dehydrogenase were up-regulated and hexokinase,alcohol dehydrogenase,and alcohol O-acetyltransferase were down-regulated.The above up-regulation and down-regulation synergistically promoted the formation of characteristic fl avor compounds(mainly L-lactic acid and ethyl acetate).Enzyme-linked immunoassay(ELISA)and parallel reaction monitoring(PRM)quantitative analysis respectively verifi ed that 5 key metabolic enzymes and 27 proteins in L.paracasei H4-11 and K.marxianus L1-1 were associated with the characteristic fl avor of rice-acid soup,as confi rmed by the quantitative results of 4D LFQ.
