Characterisation of the Poly-(Vinylpyrrolidone)-Poly-(Vinylacetate-Co-Crotonic Acid) (PVP:PVAc-CA) Interpolymer Complex Matrix Microparticles Encapsulating a Bifidobacterium lactis Bb12 Probiotic Strain

Mamvura, Chiedza Isabel; Moolman, FS; Kalombo, Lonji; Hall, A. N.; Thantsha, Mapitsi Silvester

doi:10.1007/s12602-011-9075-6

Cited by 8 publications

(4 citation statements)

References 31 publications

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“…Moreover, a strong fluorescence of these structures confirms that they are alive probiotic cells. A similar phenomenon has been reported by a previous studies (Mamvura et al, 2011 [ 26 ]; Yu et al, 2020 [ 27 ]).…”

Section: Resultssupporting

confidence: 90%

New Biocomposite Electrospun Fiber/Alginate Hydrogel for Probiotic Bacteria Immobilization

et al. 2021

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Biotechnological use of probiotic microorganisms involves providing them with appropriate conditions for growth, but also protection against environmental changes caused by an exchange of the medium, isolation of metabolites, etc. Therefore, the research on effective immobilization of probiotic microorganisms should be focused in this direction. The present study aimed to evaluate the effectiveness of an innovative hybrid immobilization system based on electrospun nanofibers and alginate hydrogel. The analyses carried out included the study of properties of the initial components, the evaluation of the degree and durability of cell immobilization in the final material, and their survival under stress conditions. Effective binding of microorganisms to the hydrogel and nanofibers was confirmed, and the collected results proved that the proposed biocomposite is an efficient method of cell protection. In addition, it was shown that immobilization on electrospun nanofibers leads to the preservation of the highest cell activity and the least cell growth restriction as compared to free or lyophilized cells only. The completed research opens new perspectives for the effective immobilization of microorganisms of significant economic importance.

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Section: Resultssupporting

confidence: 90%

New Biocomposite Electrospun Fiber/Alginate Hydrogel for Probiotic Bacteria Immobilization

et al. 2021

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“…Since supercritical fluids have a wide spectrum of solvent characteristics, they can be used as solvents in different techniques (Frederiksen et al, 1997). Microparticles produced using this method have suitable morphological characteristics, encapsulation efficiency and affords encapsulated probiotic cultures protection in simulated gastrointestinal fluids (Mamvura et al, 2011;Thantsha et al, 2009). …”

Section: Methods For Improving Probiotic Viabilitymentioning

confidence: 99%

Probiotics - What They Are, Their Benefits and Challenges

Thantsha¹,

Mamvura²,

Booyens³

2012

New Advances in the Basic and Clinical Gastroenterology

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“…Therefore, it is important to enhance the stress resistance of probiotic bacteria. Although traditional researches focus on the development of protection materials and high density fermentation (Mamvura et al, 2011 ; Gbassi and Vandamme, 2012 ; Ortakci et al, 2012 ; D'Orazio et al, 2015 ; Ilango et al, 2016 ; Champagne et al, 2017 ), there is a great prospect to promote the stress resistance of probiotic bacteria by genetic engineering based on their molecular physiology.…”

Section: Introductionmentioning

confidence: 99%

Overexpression of luxS Promotes Stress Resistance and Biofilm Formation of Lactobacillus paraplantarum L-ZS9 by Regulating the Expression of Multiple Genes

Liu

Zhang

et al. 2018

Front. Microbiol.

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Probiotics have evoked great interest in the past years for their beneficial effects. The aim of this study was to investigate whether luxS overexpression promotes the stress resistance of Lactobacillus paraplantarum L-ZS9. Here we show that overexpression of luxS gene increased the production of autoinducer-2 (AI-2, quorum sensing signal molecule) by L. paraplantarum L-ZS9. At the same time, overexpression of luxS promoted heat-, bile salt-resistance and biofilm formation of the strain. RNAseq results indicated that multiple genes encoding transporters, membrane proteins, and transcriptional regulator were regulated by luxS. These results reveal a new role for LuxS in promoting stress resistance and biofilm formation of probiotic starter.

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Characterisation of the Poly-(Vinylpyrrolidone)-Poly-(Vinylacetate-Co-Crotonic Acid) (PVP:PVAc-CA) Interpolymer Complex Matrix Microparticles Encapsulating a Bifidobacterium lactis Bb12 Probiotic Strain

Cited by 8 publications

References 31 publications

New Biocomposite Electrospun Fiber/Alginate Hydrogel for Probiotic Bacteria Immobilization

New Biocomposite Electrospun Fiber/Alginate Hydrogel for Probiotic Bacteria Immobilization

Probiotics - What They Are, Their Benefits and Challenges

Overexpression of luxS Promotes Stress Resistance and Biofilm Formation of Lactobacillus paraplantarum L-ZS9 by Regulating the Expression of Multiple Genes

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