High-throughput characterization of the effect of sodium chloride and potassium chloride on 31 lactic acid bacteria and their co-cultures

The decomposition of organic matter in the soil, soil salinity, and soil acidity are influenced by soil microbiology, which also controls the recycling and processing of nutrients in the soil. These factors affect soil fertility and ecological stability. This manuscript is focused on the isolation of seven gram-negative bacteria found in the agricultural soil of The Neotia University campus, West Bengal, India. These isolates have been found to be mesophilic based on their study of their growth profiles, which revealed that under the same incubation conditions, the isolates displayed rising development patterns between 24 and 120 hours. The presence of sodium and potassium chloride modulates the growth and development of bacterial strains (DNI1, DNI2, DNI3, DNI4, DNI5, DNI6, and DNI7) during laboratory set up. The sodium and potassium chloride composition of culture media that effectively regulates the development of bacterial isolates has been determined using the combinational method of salt treatment. The ideal physical factor required for the growth and development of microorganisms has been demonstrated by the pH and temperature titration during this study. The powerful antibiotics known as polymyxin B, which are nonribosomal lipopeptides produced byPaenibacillus polymyxa, are especially effective against Gram-negative bacteria. Because multidrug-resistant Gram-negative bacteria have few other choices for treating infections, the use of polymyxins in clinical settings has increased despite their toxicity in the past. This study offers an update on the most current findings about the bioactivity of soil isolates and their significant relationships to temperature, pH, salt, and polymixin B sensitivity. The toxicity impact may be reduced by enhancing polymixin B’s antibacterial activity with salt treatment in clinical research.

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Characterization and peptide identification of umami fractions from rusip—a traditional fermented anchovy product

Amelia,

Nurhamzah,

Lioe

et al. 2024

Journal of Food Science

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Rusip is a spontaneously fermented anchovy product originating from Bangka Belitung province in Indonesia, used as umami seasoning. This study investigated the characteristics of rusip and its umami fractions to reveal umami peptides in rusip. Six commercial rusip samples from Bangka were analyzed for their proximate composition, pH, total titratable acids, NaCl, total sugars, free glutamic acid, nucleotide (adenosine monophosphate), and total amino acid composition. Umami taste intensity of water‐soluble extracts (WSE) was analyzed by a sensory panel. Total plate count and total lactic acid bacteria were also analyzed to assess the microbial variations between the samples. Stepwise ultrafiltration on the highest umami intensity WSE was conducted to obtain three fractions: >5 kDa, 3–5 kDa, and <3 kDa, followed by chromatography fractionation of fraction <3 kDa by Sephadex G‐15 gel to acquire umami fractions (F1–F4). Protein (28.94%–44.53% dry weight basis [db]) and NaCl (30.86%–55.73% db) were the major solids of rusip. Concentrations of free glutamic acid (5.79%–8.99% db) in rusip are related with umami intensities of WSE. F1 was the umami fraction with its residual umami amino acids higher than its free ones; therefore, F1 was also a peptide fraction. It contained peptides of 3–12 residues within the highest relative area. Their sequences contained those of umami peptides listed in BIOPEP database. Some of these peptides were also associated with bioactivities. This information could broaden the insight of umami peptides and their bioactivities in fermented foods.Practical ApplicationRusip is used as a source of umami ingredient in food. The characteristics of product quality of rusip were reported in this study. In addition, the chemical and sensory characteristics as well as peptides of its umami fraction were also described. This information is important for the exploration of umami peptides from fish fermented products.

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High-throughput characterization of the effect of sodium chloride and potassium chloride on 31 lactic acid bacteria and their co-cultures

Cited by 3 publications

References 68 publications

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High-throughput ecological interaction mapping of dairy microorganisms

Sodium Chloride Promotes the Growth of Bacterial Soil Isolate and Antimicrobial Activity of Polymixin B

Characterization and peptide identification of umami fractions from rusip—a traditional fermented anchovy product

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