Optimization, kinetics, and radioprotective potential of a heteropolysaccharide from L. rhamnosus RVPI

Optimization, kinetics, and radioprotective potential of a heteropolysaccharide from L. rhamnosus RVPI

The probiotic potential of Lactobacillus rhamnosus RVP1 isolated from Sardinella longiceps was investigated in vitro. The bacterium exhibited highest tolerance at low pH and high bile salt concentration and demonstrated good antioxidant activity, hydrophobicity, and inhibited both Gram‐negative and...

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Published in:Biotechnology and applied biochemistry Vol. 67; no. 3; pp. 442 - 455
Main Authors: Umesh, Anushri,  , Pradeepa, Manjunath, Anushree, Salian, Chithralekha,  , Manasadeepika, Suvarna, Manu, Muddappa, Vidya Shimoga
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-05-2020
Subjects:
Antioxidants
Bacteria
Bile
Biodegradation
biokinetics
Computer simulation
Confidence intervals
Dextrose
Fermentation
Hydrophobicity
Intestine
Kinetics
L. rhamnosus, mechanistic models
Optimization
Peptone
Peptones
pH effects
Probiotics
radioprotective activity
Response surface methodology
RSM
Structural integrity
Substrates
radioprotective activity
Biokinetics
L. rhamnosus, mechanistic models
RSM
probiotics
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Summary:The probiotic potential of Lactobacillus rhamnosus RVP1 isolated from Sardinella longiceps was investigated in vitro. The bacterium exhibited highest tolerance at low pH and high bile salt concentration and demonstrated good antioxidant activity, hydrophobicity, and inhibited both Gram‐negative and Gram‐positive indicator bacteria. To aid in process design and to unravel the fermentation kinetics, response surface methodology was devised to optimize the EPS production from L. rhamnosus and mechanistic models were developed to describe the fermentation kinetics. The optimum pH and dextrose and peptone concentrations for EPS production were 7.07 and 19.995 and 23.4 g/L, respectively, with a predicted yield of 724 mg/L. The actual yield under these conditions was 708 ± 29 mg/L that was within the 95% confidence interval. The simulated mechanistic model fit the experimental values with a high degree of correlation with R2 = 0.99, 0.96, and 0.97 for the logistic growth, substrate consumption, and EPS production and degradation curves, respectively. The kinetic constants µmax = 0.29/H, Xmax = 3.44 g/L, kf = 348 mg of EPS/g of dry biomass and kd = 0.53/H were derived from the model. The EPS administration improved the survival of irradiated mice by 50%, proving its radioprotective potential and showed positive effects on structural integrity of intestinal tissue. Preliminary investigation on the production kinetics and radioprotective application of EPS from L. Rhamnosus.
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ISSN:0885-4513
1470-8744
DOI:10.1002/bab.1855