Utilization POME as growth substrate for local indigenous bacteria Bacillus sp. ALP D1 in producing biosurfactant

Palm Oil Mill Effluent (POME) is a liquid palm oil waste that has beneficial value because of the nutritional content it contains. This research aim to obtain biosurfactant by using POME as a growth substrate. The methods used include biosurfactant production, extraction using acid precipitation, an...

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Veröffentlicht in:	IOP conference series. Earth and environmental science 2024-02, Vol.1312 (1), p.12057
Hauptverfasser:	Damayana, H, Nurhasanah, Kiswandono, A A, Juliasih, N L G R, Bahri, S
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Sprache:	eng
Schlagworte:	Bacillus Bacillus sp Bacteria biosurfactant lipopeptide Ninhydrin Oil wastes Palm oil Peptides POME Production methods Reagents Substrates Surfactants
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creator	Damayana, H Nurhasanah Kiswandono, A A Juliasih, N L G R Bahri, S
description	Palm Oil Mill Effluent (POME) is a liquid palm oil waste that has beneficial value because of the nutritional content it contains. This research aim to obtain biosurfactant by using POME as a growth substrate. The methods used include biosurfactant production, extraction using acid precipitation, and characterization using TLC, FTIR, and LC-MS. The results showed that the local indigenous bacteria Bacillus sp. ALP D1 can produce biosurfactant under conditions of growth of POME 3%, NaNO 3 3%, pH 6, salinity 7% with an IE24 of 69.44%, diameter of oil spreading test at 8.5 cm, and positive at drop collapse test. The extraction stage produces a brownish-yellow crude extract of 0.068 g/L. Biosurfactant characterization using TLC showed pink spots with ninhydrin reagent indicating the presence of nitrogen groups from peptide in the biosurfactant. This is supported by the results of FTIR analysis with the presence of an N-H peak from the peptide group in the absorption area 3384 cm -1 . The results of the LC-MS analysis showed that the biosurfactant obtained had Rt 14.64 minutes and 332.22 m/z. Based on the results, it is suspected that the biosurfactant produced by Bacillus sp. ALP D1 is a lipopeptide.
doi_str_mv	10.1088/1755-1315/1312/1/012057
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ALP D1 in producing biosurfactant</title><source>IOP Publishing Free Content</source><source>Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals</source><source>IOPscience extra</source><creator>Damayana, H ; Nurhasanah ; Kiswandono, A A ; Juliasih, N L G R ; Bahri, S</creator><creatorcontrib>Damayana, H ; Nurhasanah ; Kiswandono, A A ; Juliasih, N L G R ; Bahri, S</creatorcontrib><description>Palm Oil Mill Effluent (POME) is a liquid palm oil waste that has beneficial value because of the nutritional content it contains. This research aim to obtain biosurfactant by using POME as a growth substrate. The methods used include biosurfactant production, extraction using acid precipitation, and characterization using TLC, FTIR, and LC-MS. The results showed that the local indigenous bacteria Bacillus sp. ALP D1 can produce biosurfactant under conditions of growth of POME 3%, NaNO 3 3%, pH 6, salinity 7% with an IE24 of 69.44%, diameter of oil spreading test at 8.5 cm, and positive at drop collapse test. The extraction stage produces a brownish-yellow crude extract of 0.068 g/L. Biosurfactant characterization using TLC showed pink spots with ninhydrin reagent indicating the presence of nitrogen groups from peptide in the biosurfactant. This is supported by the results of FTIR analysis with the presence of an N-H peak from the peptide group in the absorption area 3384 cm -1 . The results of the LC-MS analysis showed that the biosurfactant obtained had Rt 14.64 minutes and 332.22 m/z. Based on the results, it is suspected that the biosurfactant produced by Bacillus sp. 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subjects	Bacillus Bacillus sp Bacteria biosurfactant lipopeptide Ninhydrin Oil wastes Palm oil Peptides POME Production methods Reagents Substrates Surfactants
title	Utilization POME as growth substrate for local indigenous bacteria Bacillus sp. ALP D1 in producing biosurfactant
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