Aqueous two-phase flotation for primary recovery of bacteriocin-like inhibitory substance (BLIS) from Pediococcus acidilactici Kp10

Sidek, Nurul Lyana; Tan, Joo Shun; Abbasiliasi, Sahar; Wong, Fadzlie Wong Faizal; Mustafa, Shuhaimi; Ariff, Arbakariya

doi:10.1016/j.jchromb.2016.05.024

Cited by 30 publications

(14 citation statements)

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“…Although a few studies using bacteriocin partitioning/recovery using PEG/salt-based ATPSs [26][27][28][29][30], and with an aqueous two-phase micellar system (ATPMS) [31,32], have been evaluated, PEG/NaPA systems composed of inorganic salts or choline-based salts have not been proposed before. In this context, and based on the advantages mentioned above, the present study investigated a PEG/NaPA based ATPS with Na 2 SO 4 or choline chloride ([Ch]Cl) as additives to extract bacteriocin from the fermented broth of Lactobacillus plantarum ST16Pa.…”

Section: Introductionmentioning

confidence: 99%

Bacteriocin partitioning from a clarified fermentation broth of Lactobacillus plantarum ST16Pa in aqueous two-phase systems with sodium sulfate and choline-based salts as additives

Sabo

Lopes

Santos-Ebinuma

et al. 2018

Process Biochemistry

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The partitioning of bacteriocin, a promising alternative to chemical preservatives, in a novel inexpensive and stable aqueous two-phase system (ATPS) comprising poly(ethylene glycol) (PEG) and sodium polyacrylate (NaPA) was studied. The ATPS was generated by mixing both polymers with Na 2 SO 4 or choline chloride ([Ch]Cl) and a bacteriocin extract from the fermented broth of Lactobacillus plantarum ST16Pa. Bacteriocin showed stability at different pH values (3.0-8.0) and temperatures (50-80°C), as well as in the presence of ATPS components. Hydrophobic and electrostatic interactions were found to be the major driving forces for bacteriocin partitioning. The peptide partitioned preferentially to the PEG-rich phase (partition coefficient, K Bact > 1). However, the highest partition coefficient was achieved in the polymeric-based ATPS using [Ch]Cl as additive, as follows: 8 wt% PEG 10,000 g/mol/8 wt% NaPA 8,000 g/mol/0.5 M [Ch]Cl, resulting in a K Bact equal to 32. Moreover, these conditions promoted high selectivity (S = 62.7), since the greater part of total proteins partitioned into the NaPA-rich phase (K prot = 0.51). In conclusion, ATPS composed of PEG/NaPA using cholinebased salts as additive can be considered mainly as a first step for bacteriocin extraction from fermented broth by applying low polymer content and mild conditions.

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Section: Introductionmentioning

confidence: 99%

Bacteriocin partitioning from a clarified fermentation broth of Lactobacillus plantarum ST16Pa in aqueous two-phase systems with sodium sulfate and choline-based salts as additives

Sabo

Lopes

Santos-Ebinuma

et al. 2018

Process Biochemistry

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“…In ATPF, operation process parameters are designed to only move the product of interest to the top phase. ATPF has been successful to separate bromelain, cyclodextringlycosyltransferase, flavonol glycosides, and bacteriocin‐like inhibitory substance . Moreover, ATPF has been employed at pilot‐scales for the purification of lipase .…”

Section: Potential Trends and Current Challengesmentioning

confidence: 99%

Aqueous Two‐Phase Systems at Large Scale: Challenges and Opportunities

Torres‐Acosta

Mayolo‐Deloisa

González‐Valdez

et al. 2018

Biotechnology Journal

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Aqueous two-phase systems (ATPS) have proved to be an efficient and integrative operation to enhance recovery of industrially relevant bioproducts. After ATPS discovery, a variety of works have been published regarding their scaling from 10 to 1000 L. Although ATPS have achieved high recovery and purity yields, there is still a gap between their bench-scale use and potential industrial applications. In this context, this review paper critically analyzes ATPS scale-up strategies to enhance the potential industrial adoption. In particular, large-scale operation considerations, different phase separation procedures, the available optimization techniques (univariate, response surface methodology, and genetic algorithms) to maximize recovery and purity and economic modeling to predict large-scale costs, are discussed. ATPS intensification to increase the amount of sample to process at each system, developing recycling strategies and creating highly efficient predictive models, are still areas of great significance that can be further exploited with the use of high-throughput techniques. Moreover, the development of novel ATPS can maximize their specificity increasing the possibilities for the future industry adoption of ATPS. This review work attempts to present the areas of opportunity to increase ATPS attractiveness at industrial levels.

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“…Then, 20 µL of the CFS was spotted onto the agar surface. A period of 3 h was allowed for the diffusion of the supernatant at room temperature and after the plates were incubated at 30°C for 24 h. Subsequently, the inhibition halos were measured in four directions by a digital caliper gauge (Lee Tools, model 684132) and the antimicrobial activity of bacteriocin (A Bact ), defined in arbitrary units (AU), was calculated based on Sidek et al (2016). The equation is represented as follows:…”

Section: Chapter III 55mentioning

confidence: 99%

“…Remarkably, IL-based ATPPS have been shown to overcome some of the main limitations of typical polymer-polymer or polymer-salt systems since it is possible to tailor the properties and affinities of the IL-rich phase by adequately choosing the IL chemical structure (Pereira, Rebelo, Rogers, Coutinho, & Freire, 2013). In general, IL-based ATPPS have shown a better extractive performance compared to traditional polymer based ATPPS (Freire et al, 2012) Although few studies with bacteriocin partitioning/recovery using PEG/salts based ATPPS (Abbasiliasi et al, 2014;Lappe, Anna, & Brandelli, 2012;Li, Bai, Li, Cai, & Ouyang 2001;Li, Ouyang, & Bai, 2000;Sidek et al, 2016) and with aqueous two-phase micellar system (ATPMS) 2013) have already been evaluated, PEG/NaPA systems composed of salts or ILs have never been proposed before. In this context and based on the advantages above mentioned, our group investigated PEG/NaPA based ATPPS with the ionic liquid choline chloride ([Ch]Cl) to extract bacteriocin from fermented broth of Lactobacillus plantarum ST16Pa.…”

Section: Introductionmentioning

confidence: 99%

“…Next, 20 µL of the CFS was pipetted onto the agar surface. A period of 3 h was allowed for the diffusion of the supernatant at room temperature and after that, the plates were incubated at 30 °C for 24 h. Then, the inhibition halos were measured using a digital caliper and the antimicrobial activity was defined in AUs, which represent the area of the inhibition halos per unit of volume in mL (mm 2 /mL), calculated by the procedure adapted from the methodology presented bySidek et al (2016).2.9. BLIS biopreservative efficiency in fresh chicken breast filletsTo investigate the biopreservative efficiency of CFS against the growth of bioindicator strain E. faecium 711, fresh chicken breast fillets (at 24 h post mortem and individually aged on ice) were purchased in a local market, and transported to the laboratory in a refrigerated thermal box (~4 °C).…”

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Biotechnological production and application of antimicrobial biomolecules by <i>Lactobacillus plantarum</i> in milk whey

Sabo¹

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__________________________________ 1 th . examiner __________________________________ 2 nd . examiner __________________________________ 3 rd . examiner São Paulo, _________________, ____, 2017. Palavras-chave: soro de leite/queijo, Lactobacillus plantarum, bacteriocina, suplementação, otimização, bioconservante ABSTRACT SABO, S.S. Biotechnological production and application of antimicrobial biomolecules by Lactobacillus plantarum in milk whey. 2017. 197 p. Thesis (Ph. D.) -Faculty of Pharmaceutical Sciences, University of São Paulo, 2017.Bacteriocins are antimicrobial peptides ribosomally synthesized by various bacteria. In particular, the bacteriocins produced by lactic acid bacteria have recently received great attention due to their wide applicability and also because they are produced by microorganisms safe for human consumption. There are numerous studies reporting bacteriocin production by different lactic acid bacteria, as well as its optimization by using alternative substrate. Some of these studies point to milk/cheese whey as a potential low-cost source for the cultivation of lactic acid bacteria and the production of biocomposites, such as bacteriocins. Several researches refer to the production of bacteriocins, mainly nisin. On the other hand, the production of bacteriocins by Lactobacillus plantarum strains still limited. In this context, the present work first studied the growth and production of bacteriocin by L. plantarum strain ST16Pa when cultivated in Man, Rogosa and Sharpe (MRS) broth with and without inulin supplementation incubated under shaken and stationary conditions. The results indicated that this strain has higher growth when cultured in aerobiosis; however, the highest bacteriocin activity is obtained in stationary condition. The stability and partitioning of bacteriocin from the fermented MRS broth of L. plantarum ST16Pa in the PEG/NaPA/electrolytes aqueous two-phase systems was also studied. After 1 h in temperatures from 50 °C to 80 °C and pH from 3.0 to 8.0, the produced bacteriocin remained stable. In addition, the proposed partition system has proved to be an economical alternative for the recovery and purification of this biomolecule. Motivated by the trend in use industrial byproducts aiming the production of high value-added biocomposites, we investigated the performance of milk/cheese whey as alternative substrate for L. plantarum ST16Pa growth and for the production of antimicrobial biomolecules by this strain. For this purpose, the study was divided in two steps, being the first developed using whey powder supplemented according to the Plackett & Burman experimental design, with 12 trials and 4 central points. Although the proposed design was not the ideal statistical tool to optimize the bacteriocin ST16Pa production, through it was possible to obtain a formulation, which resulted in greater inhibition zones when compared with previous date reported by other authors using the same strain cultured in cheese whey. Later, still using L. plantarum strain ST16Pa, we investiga...

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Aqueous two-phase flotation for primary recovery of bacteriocin-like inhibitory substance (BLIS) from Pediococcus acidilactici Kp10

Cited by 30 publications

References 17 publications

Bacteriocin partitioning from a clarified fermentation broth of Lactobacillus plantarum ST16Pa in aqueous two-phase systems with sodium sulfate and choline-based salts as additives

Bacteriocin partitioning from a clarified fermentation broth of Lactobacillus plantarum ST16Pa in aqueous two-phase systems with sodium sulfate and choline-based salts as additives

Aqueous Two‐Phase Systems at Large Scale: Challenges and Opportunities

Biotechnological production and application of antimicrobial biomolecules by <i>Lactobacillus plantarum</i> in milk whey

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