Arun Chauhan scite author profile

An appropriate selection of Lactobacillus strain (probiotic/starter/functional) on the basis of its techno-functional characteristics is required before developing a novel fermented functional food. We compared vitamin B (B, cobalamin) producing Lactobacillus plantarum isolates, BHM10 and BCF20, for functional (vitamin over-production, genomic insight to B structural genes, and probiotic attributes) and technological [milks (skim and soy) fermentation and B bio-fortification] characteristics. Addition of B precursors (5-amonolevulinate and dimethylbenzimidazole) to cobalamin-free fermentation medium increased vitamin production in BHM10, BCF20, and DSM20016 (a positive standard) by 3.4-, 4.4-, and 3.86-folds, respectively. Three important B structural genes were detected in L. plantarum species (strains BHM10 and BCF20) by PCR for the first time. The gene sequences were submitted to NCBI GenBank and found phylogenetically closer to respective sequences in B producing Lactobacillus reuteri strains. During comparative probiotic testing, BCF20 showed significantly higher (p < 0.05 to p < 0.001) gastrointestinal tolerance and cell surface hydrophobicity (p < 0.05) than BHM10. Moreover, only BCF20 was found positive for BSH activity and also exhibited comparatively better antagonistic potential against potent pathogens. Conversely, high acid and bile susceptible strain BHM10 displayed significantly higher soy milk fermentation and resultant B bio-fortification abilities during technological testing. Two B quantification techniques, UFLC and competitive immunoassay, confirmed the in vitro and in situ bio-production of bio-available form of B after BHM10 fermentation. Conclusively, techno-functional differentiation of two B producing strains elucidates their diverse future use; BCF20 either for B over-production (in vitro) or as a probiotic candidate, while BHM10 for cobalamin bio-fortification (in situ) in soy milk.

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Vitamin C, total polyphenols and antioxidant activity in raw, domestically processed and industrially processed Indian Chenopodium quinoa seeds

Kaur¹,

Tanwar²,

Reddy³

et al. 2016

J App Pharm Sci

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Total antioxidant activity, Vitamin C and total polyphenols were determined for the first time in Indian Chenopodium quinoa seeds. The raw seeds were subjected to domestic processing method by soaking and germination to see the effect on antioxidant activity, Vitamin C and total polyphenols as compared to the industrially processed seeds. Antioxidant activities were determined by DPPH and FRAP method. Total phenolic content and flavonoid was determined colorimetrically and vitamin C by N-bromosuccinimide (NBS) method. The results show that domestically processed seeds have higher vitamin C, total phenolic content (TPC), total flavonoid content (TFC) and antioxidant activity as compared to the raw and industrially processed seeds. Antioxidant activity was found significantly correlated to the total phenolic content in raw, domestically processed and industrially processed seeds. The results suggest use of domestic processing of quinoa seeds to retain nutrient value and also infer dietary importance of Indian Chenopodium quinoa.

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Arun Chauhan

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Techno-functional differentiation of two vitamin B12 producing Lactobacillus plantarum strains: an elucidation for diverse future use

Vitamin C, total polyphenols and antioxidant activity in raw, domestically processed and industrially processed Indian Chenopodium quinoa seeds

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