The development of new preservatives is an ongoing investigation in the food industry, especially those which are safe and environmentally friendly. In this study, biosurfactant sophorolipids (SLs) functionalized with amino acids were developed as efficient preservative agents. SLs were first isolated from fermentation broth by Candida bombicola ATCC 22214, hydrolyzed, and purified by extraction. The typical recovery is around 70%, while the extracted material consists of over 90% deacetylated acidic SLs (SL-COOH). Four types of SL derivatives were then synthesized via dicyclohexylcarbodiimide amidation reactions from prepared SL-COOH. Among the derivatives produced, the arginine SL conjugates (SL-D-Arg) displayed the highest activity against Grampositive bacteria and fungi and even inhibited the cell growth of Gram-negative bacteria and mildew. Furthermore, the arginine conjugates performed the broadest antimicrobial activity among the derivatives evaluated. The sterilization dosage of the arginine conjugates against the food-spoilage pathogen Bacillus spp. was 63−125 mg/L, in contrast to 250 mg/L for the enterotoxin producer Staphylococcus aureus and 500 mg/L for fungi. More importantly, SL-D-Arg displayed excellent biocompatibility, with a therapeutic index of over 7.94. SL-D-Arg has excellent potential as an alternative to traditional chemical preservatives.
This investigation developed a novel strategy for efficiently
preparing
glucolipids (GLs) by chemically modifying crude sophorolipids. Running
this strategy, crude sophorolipids were effectively transformed into
GLs through deglycosylation and de-esterification, with a yield of
54.1%. The acquired GLs were then purified via stepwise
extractions, and 66.2% of GLs with 95% purity was recovered. GLs are
more hydrophobic and present a stronger surface activity than acidic
sophorolipids (ASLs). More importantly, these GLs displayed a superior
antimicrobial activity to that of ASLs against the tested Gram-positive
food pathogens, with a minimum inhibitory concentration of 32–64
mg/L, except against E. coli . This
activity of GLs is pH-dependent and especially more powerful under
acidic conditions. The mechanism involved is possibly associated with
the more efficient adsorption of GLs, as demonstrated by the hydrophobicity
of the cell membrane. These GLs could be used as antimicrobial agents
for food preservation and health in the food industry.
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