Adsorption of Nisin on Montmorillonite: A Concentration Strategy

Ibarguren, Carolina; Audisio, M; Sham, Edgardo Ling; Müller, Frank A.; Torres, Elsa Mónica Farfán

doi:10.1111/jfpp.12788

Cited by 4 publications

(2 citation statements)

References 30 publications

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“…Nisin titer was 4,267 AU ml −1 for Mt‐NisM 0.6 sample, compared to 533 AU ml −1 for Mt‐NisM 0.24 sample (Table 2). These results are in agreement with Ibarguren, Audisio, Sham, Müller, and Farfán Torres (2017), who found a concentration effect when nisin was adsorbed from commercial samples of this bacteriocin. Furthermore, for Mt‐NisM 0.60 sample, the same thermal stability behavior as that of Mt‐NisM 0.24 was obtained (Figure S1).…”

Section: Resultssupporting

confidence: 92%

Technological properties of montmorillonite modified with lactocin 705, AL705 and nisin

Massani

Fernández

Molina

et al. 2020

J Food Process Preserv

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Montmorillonite clay (Mt) was proposed in this work to provide thermal protection of bacteriocins without loss of their functionality. The Mt‐bacteriocins with 0.24 CEC preserved their antimicrobial activity, and their thermal stability was up to 121°C/ 60 min, which allows them to be added to the melt for extrusion during the processing of polymer/antimicrobial films. Then, the release of bacteriocin in contact with water and sunflower oil was evaluated, and it was observed that for Mt‐nisin with 0.60 CEC (Mt‐NisM 0.60) up to 10 days of contact, antimicrobial activity was conserved. In addition, in contact with sunflower oil the Mt‐bacteriocin samples tested retained or exerted their microbiological activity. These results are promising for food packaging applications. This is the first report on the use of Mt to support the bacteriocins produced by Lactobacillus curvatus CRL705. Practical applications Thermal protection of bacteriocins produced by L. curvatus CRL705 and Lactococcus lactis CRL1109, without loss of their functionality was proposed by loading each of them on montmorillonite (Mt) clay. To attain that objective a bacteriocin amount corresponding to 24% of the CEC of the Mt was loaded, and the release of bacteriocin in contact with water and sunflower oil was evaluated. The microbiological activity of Mt‐bacteriocin samples was conserved when tested in contact with sunflower oil. These results are promising for food packaging applications.

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Section: Resultssupporting

confidence: 92%

Technological properties of montmorillonite modified with lactocin 705, AL705 and nisin

Massani

Fernández

Molina

et al. 2020

J Food Process Preserv

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“…It indicated that a modification of the interlayer space distance occurred due to an intercalation of plantaricin Q7 in montmorillonite layers, suggesting that plantaricin Q7 probably adsorbed on montmorillonite by 'frustrated intercalation' . These results are in agreement with Ibarguren [8,25]. TEM micrographs of montmorillonite and plantaricin Q7 adsorbed montmorillonite are shown in Fig.…”

Section: Characterization Of Plantaricin Q7 Adsorbed On Montmorillonitesupporting

confidence: 91%

Adsorption of plantaricin Q7 on montmorillonite and application in feedback regulation of plantaricin Q7 synthesis by Lactobacillus plantarum Q7

Zhang

Gong

et al. 2018

Engineering in Life Sciences

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Kieselguhr, bentonite, and montmorillonite were investigated as potential carriers of plantaricin Q7. Highest level of adsorption of plantaricin Q7 was obtained with montmorillonite. Meanwhile, visible inhibition zones were observed against Listeria monocytogenes for montmorillonite adsorbed with plantaricin Q7. Adsorption kinetics showed that the adsorption behaviour followed the pseudo‐first‐order and Weber's intra‐particle diffusion models, suggesting two steps had taken place during the adsorption process. X‐ray diffraction assays revealed that plantaricin Q7 was intercalated into the interlayer space of montmorillonites. Electrostatic, hydrogen bonding and hydrophobic interactions proved to play important roles in the mechanisms of interaction between montmorillonite and plantaricin Q7, as shown by infrared spectroscopy analysis. In addition, plantaricin Q7 production was inhibited by feedback regulation with its high concentrations. In order to remove product feedback inhibition in plantaricin Q7 production, a strategy was implemented for its adsorption onto montmorillonite during fermentation. The final plantaricin Q7 output reached 3713.40 IU/mL during fermentation using montmorillonite to adsorb plantaricin Q7, 41.61% higher than that of non‐ montmorillonite. These results indicate that montmorillonites are suitable carriers for plantaricin Q7 adsorption, and the adsorption of plantaricin Q7 onto montmorillonite during fermentation could be a good method to increase final plantaricin Q7 production.

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Novel Physical Methods for Food Preservation

Bastarrachea

Tikekar

2019

Food Microbiology

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Adsorption of Nisin on Montmorillonite: A Concentration Strategy

Cited by 4 publications

References 30 publications

Technological properties of montmorillonite modified with lactocin 705, AL705 and nisin

Technological properties of montmorillonite modified with lactocin 705, AL705 and nisin

Adsorption of plantaricin Q7 on montmorillonite and application in feedback regulation of plantaricin Q7 synthesis by Lactobacillus plantarum Q7

Novel Physical Methods for Food Preservation

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