abstract
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Micronutrient deficiencies are a critical factor in the development of obesity. This work aimed to determine the Se and Zn bioaccessibility on biofortified chickpea flour and evaluate their impact on the antioxidant and anti-inflammatory activities. The greatest increase (235 %) in isoflavones was observed in the ZnSO
4 -treatment compared to the control. Malonylated-formononetin-glucoside was the major isoflavone (43 %¿50 %) found in the treatments. Na2 SeO3 -treated seeds showed the highest Se accumulation, while the greatest Zn accumulation was found in ZnSO4 -treated seeds. Se bioaccesibility followed the order: Germinated Control>ZnSO4 > ZnSeO3 > ZnSO¿ + Na2 SeO3 > Na2 SeO3, while in the seeds biofortified with Zn salts showed the order: Germinated Control>ZnSeO3 > ZnSO¿ + Na2 SeO3 > Na2 SeO3 > ZnSO4 . All treatments showed antioxidant activity. Na2 SeO3 -treatment (15.625 ¿g/mL) showed a significant reduction of 52 % in NO production compared to the Germinated Control. These findings demonstrated the biological value of food biofortification in providing minerals in the diet to combat the oxidative stress characteristic of obesity. © 2024 Elsevier Ltd