Co-extraction of soy protein and polysaccharide with lipid-lowering activity: Characterization of functional property, nutritional property and colonic fermentation property through a metabolomics approach
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[1] Shujian Wu,et al. Effect of Dietary Protein and Processing on Gut Microbiota—A Systematic Review , 2022, Nutrients.
[2] S. Sáyago-Ayerdi,et al. What we know about protein gut metabolites: Implications and insights for human health and diseases , 2021, Food chemistry: X.
[3] Jun Yu,et al. Lactobacillus gallinarum modulates the gut microbiota and produces anti-cancer metabolites to protect against colorectal tumourigenesis , 2021, Gut.
[4] Chuan-he Tang,et al. Mild preheating improves cholesterol-lowering benefits of soy protein via enhancing hydrophobicity of its gastrointestinal digests: An in vitro study , 2021, Food Hydrocolloids.
[5] R. Fitzgerald,et al. A comparative investigation into novel cholesterol esterase and pancreatic lipase inhibitory peptides from cow and camel casein hydrolysates generated upon enzymatic hydrolysis and in-vitro digestion. , 2021, Food chemistry.
[6] J. Hao,et al. Design, synthesis and lipid-lowering activities of penipyridone derivatives. , 2021, Bioorganic & medicinal chemistry.
[7] Cheng Peng,et al. Polysaccharides from Atractylodes macrocephala Koidz. Ameliorate ulcerative colitis via extensive modification of gut microbiota and host metabolism. , 2020, Food research international.
[8] Xiao Wei,et al. Pancreatic lipase and cholesterol esterase inhibitory effect of Camellia nitidissima Chi flower extracts in vitro and in vivo , 2020 .
[9] Rana Muhammad Aadil,et al. Oxidation induced by dielectric-barrier discharge (DBD) plasma treatment reduces soybean agglutinin activity. , 2020, Food chemistry.
[10] Xia Li,et al. Effects of phytochemicals from plant-based functional foods on hyperlipidemia and their underpinning mechanisms , 2020 .
[11] L. Kurozawa,et al. Enzymatic pretreatment in the extraction process of soybean to improve protein and isoflavone recovery and to favor aglycone formation. , 2020, Food research international.
[12] M. Antov,et al. Improved recovery of protein from soy grit by enzyme-assisted alkaline extraction , 2020 .
[13] Mouming Zhao,et al. Formation and characterization of soy protein nanoparticles by controlled partial enzymatic hydrolysis , 2020 .
[14] H. AbdElgawad,et al. CO2 treatment improves the hypocholesterolemic and antioxidant properties of fenugreek seeds. , 2020, Food chemistry.
[15] Mouming Zhao,et al. Identifying mechanisms underlying the amelioration effect of Chrysanthemum morifolium Ramat. 'Boju' extract on hyperuricemia using biochemical characterization and UPLC-ESI-QTOF/MS-based metabolomics. , 2019, Food & function.
[16] J. Wagner,et al. Heat treatments of defatted soy flour: Impact on protein structure, aggregation, and cold-set gelation properties , 2019, Food Structure.
[17] Xingbin Yang,et al. Soybean soluble polysaccharides enhance bioavailability of genistein and its prevention against obesity and metabolic syndrome of mice with chronic high fat consumption. , 2019, Food & function.
[18] B. Patil,et al. Review on Bile Acids: Effects of the Gut Microbiome, Interactions with Dietary Fiber, and Alterations in the Bioaccessibility of Bioactive Compounds. , 2019, Journal of agricultural and food chemistry.
[19] R. Hammami,et al. Assessment of the extractability of protein-carbohydrate concentrate from soybean meal under acidic and alkaline conditions , 2019, Food Bioscience.
[20] M. Corredig,et al. INFOGEST static in vitro simulation of gastrointestinal food digestion , 2019, Nature Protocols.
[21] Juqing Huang,et al. In vitro fermentation of O‑acetyl‑arabinoxylan from bamboo shavings by human colonic microbiota. , 2019, International journal of biological macromolecules.
[22] R. Evans,et al. FXR Regulates Intestinal Cancer Stem Cell Proliferation , 2019, Cell.
[23] Shijie Geng,et al. Fecal Microbiota Transplantation Beneficially Regulates Intestinal Mucosal Autophagy and Alleviates Gut Barrier Injury , 2018, mSystems.
[24] T. R. Licht,et al. Microbial tryptophan catabolites in health and disease , 2018, Nature Communications.
[25] Xiaobin Yu,et al. Combined process of high-pressure homogenization and hydrothermal extraction for the extraction of fucoidan with good antioxidant properties from Nemacystus decipients , 2017 .
[26] Xiaoquan Yang,et al. 7S protein is more effective than total soybean protein isolate in reducing plasma cholesterol , 2017 .
[27] P. Fryer,et al. Intensification of protein extraction from soybean processing materials using hydrodynamic cavitation , 2017 .
[28] B. Kimura,et al. Inhibitory effects of soybean oligosaccharides and water-soluble soybean fibre on formation of putrefactive compounds from soy protein by gut microbiota. , 2017, International journal of biological macromolecules.
[29] F. Bäckhed,et al. Microbiota-Produced Succinate Improves Glucose Homeostasis via Intestinal Gluconeogenesis. , 2016, Cell metabolism.
[30] Elizabeth P. Ryan,et al. Metabolomics and metabolic pathway networks from human colorectal cancers, adjacent mucosa, and stool , 2016, Cancer & metabolism.
[31] S. Imai. Soybean and Processed Soy Foods Ingredients, and Their Role in Cardiometabolic Risk Prevention. , 2015, Recent patents on food, nutrition & agriculture.
[32] Chibuike C. Udenigwe,et al. The Role of Food Peptides in Lipid Metabolism during Dyslipidemia and Associated Health Conditions , 2015, International journal of molecular sciences.
[33] Sri Charan Bindu Bavisetty,et al. An improved RP-HPLC method for simultaneous analyses of squalene and cholesterol especially in aquatic foods , 2015, Journal of Food Science and Technology.
[34] Jiaoyan Ren,et al. Effects of high hydrostatic pressure treatments on haemagglutination activity and structural conformations of phytohemagglutinin from red kidney bean (Phaseolus vulgaris). , 2013, Food chemistry.
[35] B. Guamis,et al. Comparison of ultra high pressure homogenization and conventional thermal treatments on the microbiological, physical and chemical quality of soymilk , 2012 .
[36] P. Wilde,et al. The role of bile salts in digestion. , 2011, Advances in colloid and interface science.
[37] D. Bhatnagar,et al. Effect of gamma irradiation on lipoxygenases, trypsin inhibitor, raffinose family oligosaccharides and nutritional factors of different seed coat colored soybean (Glycine max L.) , 2011 .
[38] Tong Wang,et al. Deactivation of soybean agglutinin by enzymatic and other physical treatments. , 2010, Journal of agricultural and food chemistry.
[39] E. Ferreira,et al. β-Conglycinin (7S) and glycinin (11S) exert a hypocholesterolemic effect comparable to that of fenofibrate in rats fed a high-cholesterol diet , 2010 .
[40] Hua Chen,et al. Effect of soybean oligosaccharides on blood lipid, glucose levels and antioxidant enzymes activity in high fat rats , 2010 .
[41] Johan Auwerx,et al. Targeting bile-acid signalling for metabolic diseases , 2008, Nature Reviews Drug Discovery.
[42] B. Zhang,et al. Greater habitual soyfood consumption is associated with decreased carotid intima-media thickness and better plasma lipids in Chinese middle-aged adults. , 2008, Atherosclerosis.
[43] G. Barbosa‐Cánovas,et al. Alginate coatings for preservation of minimally processed 'Gala' apples , 2007 .
[44] D. Kwon,et al. Isolation and Identification of Peptides from Soy 11S-Globulin with Hypocholesterolemic Activity , 2005, Chemistry of Natural Compounds.
[45] C. Grieshop,et al. Chemical and nutritional properties of soybean carbohydrates as related to nonruminants: A review , 2005 .
[46] C. Chi,et al. Structural features and molecular evolution of Bowman-Birk protease inhibitors and their potential application. , 2005, Acta biochimica et biophysica Sinica.
[47] X. Shu,et al. Soy food consumption is associated with lower risk of coronary heart disease in Chinese women. , 2003, The Journal of nutrition.
[48] M. Sugano,et al. Cholesterol-lowering activity of various undigested fractions of soybean protein in rats. , 1990, The Journal of nutrition.
[49] J. Kinsella. Functional properties of soy proteins , 1979 .
[50] U. K. Laemmli,et al. Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.
[51] Mouming Zhao,et al. Soy peptide nanoparticles by ultrasound-induced self-assembly of large peptide aggregates and their role on emulsion stability , 2018 .
[52] M. Cristianini,et al. Effect of isostatic high pressure treatment on phytate and trypsin inhibitor content of soy protein. , 2010 .
[53] R. Howell,et al. Soybeans: improvement, production, and uses , 1973 .
[54] F. Smith,et al. Colorimetric Method for Determination of Sugars and Related Substances , 1956 .