The influence of culture medium components on the physical and mechanical properties of cellulose synthesized by kombucha microorganisms

Betlej, Izabela; Salerno-Kochan, Renata; Krajewski, Krzysztof; Zawadzki, J.; Boruszewski, Piotr

doi:10.15376/biores.15.2.3125-3135

Cited by 23 publications

(12 citation statements)

References 32 publications

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“…This could result from the difference in the inoculation method, with only addition of cells in the case of pure cultures as opposed to the addition of 12% (v/v) of kombucha from a previous batch in the other case. The resources of nitrogen, quantitatively and qualitatively, were probably different, and the absence of ethanol could play a role in the rate of cellulose production ( Nguyen et al, 2008 ; Mamlouk and Gullo, 2013 ; Betlej et al, 2020 ). Another hypothesis would lie in the presence of microbial interactions that come with the use of a consortium.…”

Section: Resultsmentioning

confidence: 99%

“…Several of those putative functions of cellulosic biofilms are suspected to be applicable to kombucha pellicle and to play an important role in microbial interaction ( May et al, 2019 ). Very little investigation has been carried out about the kombucha pellicle, especially through the lens of spatial organization and microbial interactions ( Mayser et al, 1995 ; Goh et al, 2012 ; Zhu et al, 2014 ; Coton et al, 2017 ; Sharma and Bhardwaj, 2019 ; Betlej et al, 2020 ). The study of Coton et al (2017) reported differences in microbial composition in the proportion of genera between the liquid phase and the biofilms for yeasts and bacteria using a non-culture dependent method, thus highlighting the impact of two different environments in terms of planktonic and sessile state or oxygen and nutrient access on microbial dynamics ( Coton et al, 2017 ).…”

Section: Introductionmentioning

confidence: 99%

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Shedding Light on the Formation and Structure of Kombucha Biofilm Using Two-Photon Fluorescence Microscopy

et al. 2021

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Kombucha pellicles are often used as inoculum to produce this beverage and have become a signature feature. This cellulosic biofilm produced by acetic acid bacteria (AAB) involves yeasts, which are also part of the kombucha consortia. The role of microbial interactions in the de novo formation and structure of kombucha pellicles was investigated during the 3 days following inoculation, using two-photon microscopy coupled with fluorescent staining. Aggregated yeast cells appear to serve as scaffolding to which bacterial cellulose accumulates. This initial foundation leads to a layered structure characterized by a top cellulose-rich layer and a biomass-rich sublayer. This sublayer is expected to be the microbiologically active site for cellulose production and spatial optimization of yeast–AAB metabolic interactions. The pellicles then grow in thickness while expanding their layered organization. A comparison with pellicles grown from pure AAB cultures shows differences in consistency and structure that highlight the impact of yeasts on the structure and properties of kombucha pellicles.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Shedding Light on the Formation and Structure of Kombucha Biofilm Using Two-Photon Fluorescence Microscopy

et al. 2021

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“…Due to the fact that bacterial cellulose of different thickness was obtained on different culture media used in the study, an attempt was made to explain the actual factor that determines the gloss of cellulose. Since in previous studies it was found that with a high sucrose content in the substrate and the addition of nutrient-rich ingredients, significantly thicker polymer layers are obtained (Betlej et al 2020), attempts were made to assess whether the actual factor affecting the gloss of cellulose is its thickness or the composition of the substrate on which the polymer is synthesized. The evaluation of the correlation between the polymer thickness and its gloss made it possible to state that there was a very high relationship between the indicated features (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…The content and specific proportions of nutrients in the culture medium determine the efficiency of the cellulose synthesis process. Simple and readily available nutrients, such as tea extract or peptone, with the optimal amount of the carbon source, allow for good polymer synthesis efficiency; this is additionally characterized by a greater thickness of the film (Betlej et al 2020) and better mechanical parameters (Yim et al 2017). Undoubtedly, taking into account the intended use of bacterial cellulose, it is worth analyzing how the properties and characteristics of the polymer produced under certain conditions interact with each other.…”

Section: Introductionmentioning

confidence: 99%

Influence of SCOBY microorganisms’ cultivation conditions on the synthesis efficiency and selected qualities of bacterial cellulose

Betlej

Boruszewski

Dubis

et al. 2021

BioRes

Self Cite

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This study examined how nutrients present in the growth environment of microorganisms forming a consortium of bacteria and yeasts, called a symbiotic culture of bacteria and yeast (SCOBY), affect the efficiency of cellulose synthesis and selected properties of the cellulose, such as gloss and color. The results showed that nitrogen-rich ingredients, such as peptone and green tea, increased the efficiency of polymer synthesis and determined the cellulose’s gloss. This research showed that the qualitative characteristics of bacterial cellulose can be easily modified by the appropriate selection of the components of the culture media.

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“…First, the zooglea mats has attracted interest from sustainable fashion and textile industry, because the mats’ properties are similar to properties of clothing materials [19, 20, 21, 22, 23, 24]. Some future applications of the mats might require some loci of a mat to remain alive for sensing purposes, where chemical, tactile or optical stimuli will be mapped onto patterns of electrical activity.…”

Section: Introductionmentioning

confidence: 99%

Electrical potential spiking of kombucha zoogleal mats

Adamatzky

2022

Preprint

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A kombucha is a sugared tea fermented by a symbiotic community of over twenty species of bacteria and yeasts. The community produces and inhabits cellulosic gelatinous zoogleal mats. We studied electrical activity of the kombucha mats using pairs of differential electrodes. We discovered that the mats produce action like spikes of electrical potential. The spikes are often grouped in the trains of spikes. Characteristics of the spikes and trains of spikes are presented. We demonstrated that electrical responses of kombucha mats to chemical, electrical and optical stimulation are distinctive and therefore the mats can be used as sensors, or even unconventional computing devices.

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The influence of culture medium components on the physical and mechanical properties of cellulose synthesized by kombucha microorganisms

Cited by 23 publications

References 32 publications

Shedding Light on the Formation and Structure of Kombucha Biofilm Using Two-Photon Fluorescence Microscopy

Shedding Light on the Formation and Structure of Kombucha Biofilm Using Two-Photon Fluorescence Microscopy

Influence of SCOBY microorganisms’ cultivation conditions on the synthesis efficiency and selected qualities of bacterial cellulose

Electrical potential spiking of kombucha zoogleal mats

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