Using Corn Husk Powder as a Novel Substrate to Produce a Surface Active Compound from Labrenzia aggregate KP‐5

In this study, surface active compound (SAC)‐producing bacterial isolates were evaluated for SAC production using corn husk powder (CHP) as a sole carbon source. From the 51 isolates screened, Labrenzia aggregate KP‐5 produced the highest SAC activity. The highest SAC production (3.51 g L−1) was obt...

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Veröffentlicht in:	Journal of surfactants and detergents 2018-07, Vol.21 (4), p.523-539
Hauptverfasser:	Saimmai, Atipan, Maneerat, Suppasil, Chooklin, Chanika S.
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Sprache:	eng
Schlagworte:	Biosurfactant Corn husks powder Labrenzia aggregate Novel substrate Surface active compound
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creator	Saimmai, Atipan Maneerat, Suppasil Chooklin, Chanika S.
description	In this study, surface active compound (SAC)‐producing bacterial isolates were evaluated for SAC production using corn husk powder (CHP) as a sole carbon source. From the 51 isolates screened, Labrenzia aggregate KP‐5 produced the highest SAC activity. The highest SAC production (3.51 g L−1) was obtained when the strain was cultivated in a minimal salt medium containing 40 g L−1 CHP and 1 g L−1 commercial monosodium glutamate at 30 °C and 150 rpm after 51 h of cultivation. The produced SAC had the ability to decrease the surface tension of water from 72.0 to 25.5 mN m−1, with the critical micelle concentration of 9 mg L−1 (11.07 mM) and exhibited the highest emulsification activity (EA) of 81% against motor oil. The SAC showed stability at 4–121 °C and pH 4–10 against the surface and EA of vegetable oils and hydrocarbons, and showed tolerance at high salt concentrations (1–10% NaCl). The chemical structure of the SAC was confirmed as a rhamnolipid using Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, and mass spectrometric analysis. The SAC did not exhibit inhibitory effects on various vegetables tested; however, strong inhibitory activity against Gram‐positive and Gram‐negative bacteria was observed. The application of SAC for microbial enhanced oil recovery by sand saturated with used lubricating oil resulted in above 89% of oil removal. The properties of the SAC we obtained from CHP have potential applications especially for microbial enhanced oil recovery and/or reducing the intensity of environmental contamination. In addition, the obtained SAC is a suitable alternative to antimicrobial agents.
doi_str_mv	10.1002/jsde.12047
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From the 51 isolates screened, Labrenzia aggregate KP‐5 produced the highest SAC activity. The highest SAC production (3.51 g L−1) was obtained when the strain was cultivated in a minimal salt medium containing 40 g L−1 CHP and 1 g L−1 commercial monosodium glutamate at 30 °C and 150 rpm after 51 h of cultivation. The produced SAC had the ability to decrease the surface tension of water from 72.0 to 25.5 mN m−1, with the critical micelle concentration of 9 mg L−1 (11.07 mM) and exhibited the highest emulsification activity (EA) of 81% against motor oil. The SAC showed stability at 4–121 °C and pH 4–10 against the surface and EA of vegetable oils and hydrocarbons, and showed tolerance at high salt concentrations (1–10% NaCl). The chemical structure of the SAC was confirmed as a rhamnolipid using Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, and mass spectrometric analysis. The SAC did not exhibit inhibitory effects on various vegetables tested; however, strong inhibitory activity against Gram‐positive and Gram‐negative bacteria was observed. The application of SAC for microbial enhanced oil recovery by sand saturated with used lubricating oil resulted in above 89% of oil removal. The properties of the SAC we obtained from CHP have potential applications especially for microbial enhanced oil recovery and/or reducing the intensity of environmental contamination. 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From the 51 isolates screened, Labrenzia aggregate KP‐5 produced the highest SAC activity. The highest SAC production (3.51 g L−1) was obtained when the strain was cultivated in a minimal salt medium containing 40 g L−1 CHP and 1 g L−1 commercial monosodium glutamate at 30 °C and 150 rpm after 51 h of cultivation. The produced SAC had the ability to decrease the surface tension of water from 72.0 to 25.5 mN m−1, with the critical micelle concentration of 9 mg L−1 (11.07 mM) and exhibited the highest emulsification activity (EA) of 81% against motor oil. The SAC showed stability at 4–121 °C and pH 4–10 against the surface and EA of vegetable oils and hydrocarbons, and showed tolerance at high salt concentrations (1–10% NaCl). The chemical structure of the SAC was confirmed as a rhamnolipid using Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, and mass spectrometric analysis. The SAC did not exhibit inhibitory effects on various vegetables tested; however, strong inhibitory activity against Gram‐positive and Gram‐negative bacteria was observed. The application of SAC for microbial enhanced oil recovery by sand saturated with used lubricating oil resulted in above 89% of oil removal. The properties of the SAC we obtained from CHP have potential applications especially for microbial enhanced oil recovery and/or reducing the intensity of environmental contamination. 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From the 51 isolates screened, Labrenzia aggregate KP‐5 produced the highest SAC activity. The highest SAC production (3.51 g L−1) was obtained when the strain was cultivated in a minimal salt medium containing 40 g L−1 CHP and 1 g L−1 commercial monosodium glutamate at 30 °C and 150 rpm after 51 h of cultivation. The produced SAC had the ability to decrease the surface tension of water from 72.0 to 25.5 mN m−1, with the critical micelle concentration of 9 mg L−1 (11.07 mM) and exhibited the highest emulsification activity (EA) of 81% against motor oil. The SAC showed stability at 4–121 °C and pH 4–10 against the surface and EA of vegetable oils and hydrocarbons, and showed tolerance at high salt concentrations (1–10% NaCl). The chemical structure of the SAC was confirmed as a rhamnolipid using Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, and mass spectrometric analysis. The SAC did not exhibit inhibitory effects on various vegetables tested; however, strong inhibitory activity against Gram‐positive and Gram‐negative bacteria was observed. The application of SAC for microbial enhanced oil recovery by sand saturated with used lubricating oil resulted in above 89% of oil removal. The properties of the SAC we obtained from CHP have potential applications especially for microbial enhanced oil recovery and/or reducing the intensity of environmental contamination. In addition, the obtained SAC is a suitable alternative to antimicrobial agents.</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/jsde.12047</doi><tpages>17</tpages></addata></record>
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subjects	Biosurfactant Corn husks powder Labrenzia aggregate Novel substrate Surface active compound
title	Using Corn Husk Powder as a Novel Substrate to Produce a Surface Active Compound from Labrenzia aggregate KP‐5
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