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Author: search.filters.author.Raval, K.Subject: search.filters.subject.particle size

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    Kinetic and thermodynamic studies on the adsorption of heavy metals from aqueous solution by melanin nanopigment obtained from marine source: Pseudomonas stutzeri
    (Academic Press, 2018) Manirethan, V.; Raval, K.; Rajan, R.; Thaira, H.; Mohan Balakrishnan, R.M.
    The difficulty in removal of heavy metals at concentrations below 10 mg/L has led to the exploration of efficient adsorbents for removal of heavy metals. The adsorption capacity of biosynthesized melanin for Mercury (Hg(II)), Chromium (Cr(VI)), Lead (Pb(II)) and Copper (Cu(II)) was investigated at different operating conditions like pH, time, initial concentration and temperature. The heavy metals adsorption process was well illustrated by the Lagergren's pseudo-second-order kinetic model and the equilibrium data fitted excellently to Langmuir isotherm. Maximum adsorption capacity obtained from Langmuir isotherm for Hg(II) was 82.4 mg/g, Cr(VI) was 126.9 mg/g, Pb(II) was 147.5 mg/g and Cu(II) was 167.8 mg/g. The thermodynamic parameters revealed that the adsorption of heavy metals on melanin is favorable, spontaneous and endothermic in nature. Binding of heavy metals on melanin surface was proved by Fourier Transform Infrared Spectroscopy (FT-IR) and X-ray Photoelectron Spectroscopy (XPS). Contemplating the results, biosynthesized melanin can be a potential adsorbent for efficient removal of Hg(II), Cr(VI), Pb(II) and Cu(II) ions from aqueous solution. © 2018 Elsevier Ltd
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    Tailoring solulan C24 based niosomes for transdermal delivery of donepezil: In vitro characterization, evaluation of pH sensitivity, and microneedle-assisted Ex vivo permeation studies
    (Editions de Sante editions.de.sante@wanadoo.fr, 2020) Nayak, A.S.; Chodisetti, S.; Gadag, S.; Nayak, U.Y.; Srinikethan, S.; Raval, K.
    The present investigation aims at encapsulating donepezil (DNP) in a niosomes to avert the side effects and to deliver the intact carrier across the skin barrier by modulating its physicochemical properties. The finding conclusively demonstrated that entrapment efficiency and the alteration in the niosome size are associated with the change in the span 60: cholesterol ratio, sonication, and hydration volume. The addition of 5 mM of solulan C24 to the optimized formulation (NSV5SolC24) formed stable niosomes with a mean particle size of 180.1 ± 1.83 nm and entrapment efficiency of 82.15% ± 1.54%. The cryo-SEM image and in vitro drug release profile revealed that the NSV5SolC24 is pH-sensitive. FTIR spectral analysis of NSV5SolC24 suggested that the ether and ester group in the NSV5SolC24 complex undergoes SN2 cleavage and hydrolysis at lower pH, thus enhancing DNP release. The microneedle (MN)-assisted studies with MN1200 showed a 29-fold increase in transdermal permeation of intact NSV5SolC24 against the passive method in porcine skin. The intact NSV5SolC24 carrying DNP was translocated across the skin barrier successfully at a steady flux rate of 9.89 ± 0.923 ?g/cm2/h. Nevertheless, further in vivo studies are recommended to elucidate the pH sensitivity and clinical efficacy of the prepared drug delivery system. © 2020 Elsevier B.V.
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    Engineering a recombinant chitinase from the marine bacterium Bacillus aryabhattai with targeted activity on insoluble crystalline chitin for chitin oligomer production
    (Elsevier B.V., 2024) Subramani, A.K.; Ramachandra, R.; Thote, S.; Govindaraj, V.; Vanzara, P.; Raval, R.; Raval, K.
    Chitin, an abundant polysaccharide in India, is primary by-product of the seafood industry. Efficiently converting chitin into valuable products is crucial. Chitinase, transforms chitin into chitin oligomers, holds significant industrial potential. However, the crystalline and insoluble nature of chitin makes the conversion process challenging. In this study, a recombinant chitinase from marine bacteria Bacillus aryabhattai was developed. This enzyme exhibits activity against insoluble chitin substrates, chitin powder and flakes. The chitinase gene was cloned into the pET 23a plasmid and transformed into E. coli Rosetta pLysS. IPTG induction was employed to express chitinase, and purification using Ni-NTA affinity chromatography. Optimal chitinase activity against colloidal chitin was observed in Tris buffer at pH 8, temperature 55°C, with the presence of 400 mM sodium chloride. Enzyme kinetics studies revealed a Vmax of 2000 μmole min−1 and a Km of 4.6 mg mL−1. The highest chitinase activity against insoluble chitin powder and flakes reached 875 U mg−1 and 625 U mg−1, respectively. The chitinase demonstrated inhibition of Candida albicans, Fusarium solani, and Penicillium chrysogenum growth. Thin Layer Chromatography (TLC) and LC-MS analysis confirmed the production of chitin oligomers, chitin trimer, tetramer, pentamer, and hexamer, from chitin powder and flakes using recombinant chitinase. © 2024 Elsevier B.V.