Browsing by Author "Panda S.K."

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    Characterization of novel folate producing Lactobacillus rhamnosus and its appliance in fortification of ragi (Eleusine coracana) gruel
    (2018) Panda S.H.; Das S.; Bal P.; Panda S.K.; Goli J.K.; Mohanty N.
    Lactic acid bacteria capable of producing folate were isolated and screened from preterm babies. Among all isolates, the highest folate producing isolate was IFM4 (35 ng/ml). HPLC chromatogram suggested that the isolate synthesized 5-methyl tetrahydrofolate (one form of folate). Based upon 16S rRNA gene sequencing, the isolate showed 98% similarity with Lactobacillus rhamnosus. The isolate showed 50% survivability at highly acidic condition (pH 2.0), 95% survivability at 0.5% (w/v) bile salt concentration, antimicrobial activity against food-borne pathogens, exhibited nonhemolytic activity on 5% sheep blood agar and susceptible to several popular antibiotics. Keeping in view the demand of functional and easily digestible food products, a fermented ragi (Eleusine coracana) gruel was prepared by using the folate producing isolate, IFM4. During ragi fermentation, different biochemical parameters i.e. pH, titratable acidity, lactic acid, folate, phenol and antioxidant activities like DPPH, DMPD, FRAP were studied. The fermented ragi gruel showed improved free radical scavenging activity against DPPH (80% in 4th day), DMPD (30.66% for 50 �l in 4th day) radicals and FRAP (0.453 for 100 �l in 4th day) as compared to the control. The above profiling revealed that fermented ragi gruel could improve the functional and health beneficial characteristics of the food. The folate fortified ragi gruel with improved shelf-life period can be recommended as a special food for pregnant and breast feeding women. � 2017 Elsevier Ltd
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    Magnetic Susceptibility and Neutron Scattering of Graphene in Antiferromagnetic State: a Tight-Binding Approach
    (2018) Sahu S.; Panda S.K.; Rout G.C.
    We address here a tight-binding model study of the frequency-dependent antiferromagnetic spin susceptibility for the graphene systems. The Hamiltonian consists of electron hopping up to the third-nearest-neighbors, substrate and impurity effects in presence of electron-electron interactions at A and B sub-lattices. To calculate susceptibility, we evaluate the two-particle electron Green�s function by using Zubarev�s Green�s function technique. The frequency-dependent antiferromagnetic susceptibility of the system is computed numerically by taking 1000 X 1000 grid points of the electron momentum. The susceptibility displays a sharp peak at the neutron momentum transfer energy at low energies and another higher-energy peak associated with the substrate-induced gap. The evolution of these two peaks are investigated by varying neutron wave vector, Coulomb correlation energy, substrate-induced gap, electron hopping integrals and A- and B-site electron-doping concentrations. � 2017, Springer Science+Business Media, LLC.