Showing total 39 results

1. Dry Matter Losses in Silages Resulting from Epiphytic Microbiota Activity—A Comprehensive Study.

Author

Wróbel, Barbara, Nowak, Janusz, Fabiszewska, Agata, Paszkiewicz-Jasińska, Anna, and Przystupa, Wojciech

Subjects

ACETOBACTER, SILAGE, RAW materials, FERMENTATION

Abstract

An overview was made of dry matter (DM) and quality losses that occur during the ensiling process. The aim was to review the current knowledge on the course of the fermentation pathways in various raw materials and the loss of DM accompanying this process. This review discusses the main groups of microorganisms involved in the ensiling process, the accompanying fermentation patterns, and the resulting DM losses. The possibility of reducing DM and quality losses during the ensiling process in practice is presented. The paper concludes with future perspectives and recommended management practices to reduce losses over the whole ensiling process. [ABSTRACT FROM AUTHOR]

Published

2023

2. Special Issue on Electroporation Systems and Applications.

Author

Novickij, Vitalij

Subjects

ELECTROPORATION, ACETOBACTER

Abstract

High pulsed electric fields (PEF) trigger the phenomenon of a transient increase in the permeability of the plasma membranes of biological cells, which is known as electroporation [[1]]. Future of Electroporation-Based Technologies Although the Special Issue has been closed, the rapid evolution of the electroporation field towards clinical and biotechnological applications indicates the high relevance of the topic and the emergence of new PEF-based technologies. Finally, the possibility of a transition to contactless electroporation via the application of a high pulsed electromagnetic field is being researched [[20]], indicating the good development dynamics of this scientific field and this method. Figures Graph: Figure 1 The co-occurrence of electroporation-based topics and keywords in scientific publications (source: Clarivate Analytics Web of Science; keyword: "electroporation"; access date: 26 February 2023). [Extracted from the article]

Published

2023

3. A Review on the Interaction of Acetic Acid Bacteria and Microbes in Food Fermentation: A Microbial Ecology Perspective.

Author

Han, Dong, Yang, Yunsong, Guo, Zhantong, Dai, Shuwen, Jiang, Mingchao, Zhu, Yuanyuan, Wang, Yuqin, Yu, Zhen, Wang, Ke, Rong, Chunchi, and Yu, Yongjian

Subjects

ACETOBACTER, FOOD fermentation, LACTIC acid bacteria, COFFEE beans, CACAO beans, FERMENTED foods

Abstract

In fermented foods, acetic acid bacteria (AAB), kinds of bacteria with a long history of utilization, contribute to safety, nutritional, and sensory properties primarily through acetic acid fermentation. AAB are commonly found in various fermented foods such as vinegar, sour beer, fermented cocoa and coffee beans, kefir beverages, kombucha, and sourdough. They interact and cooperate with a variety of microorganisms, resulting in the formation of diverse metabolites and the production of fermented foods with distinct flavors. Understanding the interactions between AAB and other microbes is crucial for effectively controlling and utilizing AAB in fermentation processes. However, these microbial interactions are influenced by factors such as strain type, nutritional conditions, ecological niches, and fermentation duration. In this review, we examine the relationships and research methodologies of microbial interactions and interaction studies between AAB and yeasts, lactic acid bacteria (LAB), and bacilli in different food fermentation processes involving these microorganisms. The objective of this review is to identify key interaction models involving AAB and other microorganisms. The insights gained will provide scientific guidance for the effective utilization of AAB as functional microorganisms in food fermentation processes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Soy Molasses as Culture Medium for Bacillus Species Aiming at Plant Growth Promotion.

Author

Correa da Silva, Ana Paula Fragoso, Dorigan, Bianca Santa Rosa, da Silva-Neto, José Machado, Rosa-Magri, Marcia Maria, Rossi, Fabricio, Francisco, Kelly Roberta, Ceccato-Antonini, Sandra Regina, and Fontanetti, Anastácia

Subjects

PLANT growth, BACILLUS (Bacteria), ACETOBACTER, PLANT growing media, MOLASSES, INDOLEACETIC acid, CORN, CACAO beans

Abstract

Soy molasses, a by-product from the processing of soy protein concentrate, is a low-cost feedstock for fermentation processes due to its high content of fermentable sugars. This work investigates the use of soy molasses for growing Bacillus species, aiming at their potential application as plant growth promoters. Firstly, six Bacillus strains were screened for their ability to grow in increasing concentrations of soy molasses in a microplate assay. Following this, shaken-flask assays for growth and γ-polyglutamic acid (γ-PGA) production by three Bacillus strains in medium E and soy molasses media with 28 and 56 g L−1 of total reducing sugars (TRS) were carried out. An in vivo experiment evaluated the effect of the bacterial fermented broths on the germination and initial development of maize. Soy molasses supported the growth of Bacillus amyloliquefaciens, Bacillus subtilis, and Bacillus licheniformis in concentrations of 28 and 56 g L−1 TRS, but it was inhibitory at 112 and 224 g L−1 TRS. In soy molasses media, growth was not always associated with γ-PGA production, which was a maximum of 56 g L−1 TRS for B. amyloliquefaciens and B. licheniformis. Fermented broths with B. subtilis and B. licheniformis in soy molasses media (56 and 28 g L−1 TRS, respectively) applied to maize seeds resulted in the highest Vigor Indexes of the seedlings, which correlated negatively with the broth pH and were not impacted by the γ-PGA and indole acetic acid produced by the bacteria. The low-cost and easily available feedstock soy molasses constitutes a potential culture medium for the growth of plant growth-promoting bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

5. Functional Properties of Microorganisms Isolated from Formulated Sourdough, Coconut Water Kefir, and Kefir.

Author

Limbad, Mansi Jayantikumar, Maddox, Noemi Gutierrez, Hamid, Nazimah, and Kantono, Kevin

Subjects

ACETOBACTER, PHYTIC acid, LACTIC acid bacteria, GLUTAMIC acid, COCONUT water

Abstract

Recently, there has been a renewed interest in the fermentation of kefir grains using fruit-based substrates, such as coconut water. Kefir grains contain a mixture of lactic acid bacteria (LAB), acetic acid bacteria (AAB), and yeast, which have important probiotic capacity and play a vital role in improving the nutritional and functional properties of the new product being developed. The principal objective of this study was to determine the functional properties of the microorganisms identified and characterized from kefir, CWK, and sourdough fermented with coconut water kefir (CWKS), such as Limosilactobacillus fermentum, Lactiplantibacillus plantarum, L. fusant, L. reuteri, L. kunkeei, Acetobacter aceti, A. lovaniensis, A. pasteurianus, Candida kefyr, Rhodotorula mucilaginosa, Saccharomyces cerevisiae, C. guilliermondii, and C. colliculosa. In addition to identifying functional properties, such as glutamic acid production, phytase production, phytic acid degradation, and exopolysaccharide production, from this study, it was found that significantly high quantities of glutamic acid, exopolysaccharide, and phytase enzyme were detected in two LAB isolates, Limosilactobacillus fermentum and Lactiplantibacillus plantarum. [ABSTRACT FROM AUTHOR]

Published

2024

6. Date Vinegar: First Isolation of Acetobacter and Formulation of a Starter Culture.

Author

Al-Kharousi, Zahra S., Al-Ramadhani, Zainab, Al-Malki, Fatma A., and Al-Habsi, Nasser

Subjects

ACETOBACTER, ACETIC acid, VINEGAR, YEAST culture, FERMENTATION

Abstract

There is a lack of scientific analysis and control over the production of date vinegar in Oman, despite its growing demand in the worldwide market. Traditional production of date vinegar may lead to elevated amounts of ethanol (≥0.5%) and reduced content of acetic acid (<4%) compared to the standard acceptable levels. This study aimed to isolate non-Gluconobacter species from date vinegar produced by spontaneous fermentation and formulate starter cultures for quick and efficient production of date vinegar. In spontaneous fermentation date vinegar samples, the highest concentration of acetic acid was 10.42% on day 50. Acetobacter malorum (5 isolates), A. persici (3 isolates), and A. tropicalis (3 isolates) were identified based on 16S rRNA gene sequences for the first time in date vinegar. For date vinegar prepared with a starter culture of Acetobacter and yeast, the highest concentration of acetic acid was 4.67%. In conclusion, spontaneous fermentation resulted in the production of date vinegar with a high concentration of acetic acid, acceptable concentrations of ethanol and methanol, and the first isolation of three Acetobacter species. The formulated starter culture produced acceptable amounts of acetic acid and the time of fermentation was reduced 10 times (from 40 days to 4 days). This can provide the basis for producing a personalized or commercial product that ensures the production of good-quality date vinegar in an easier, faster, safer, and more efficient way from low-quality and surplus dates. [ABSTRACT FROM AUTHOR]

Published

2024

7. Identification of Key Parameters Inducing Microbial Modulation during Backslopped Kombucha Fermentation.

Author

Daval, Claire, Tran, Thierry, Verdier, François, Martin, Antoine, Alexandre, Hervé, Grandvalet, Cosette, and Tourdot-Maréchal, Raphaëlle

Subjects

ETHANOL, KOMBUCHA tea, PARAMETER identification, SUCROSE, MICROORGANISM populations, ACETOBACTER, FERMENTATION, SACCHAROMYCES cerevisiae

Abstract

The aim of this study was to assess the impact of production parameters on the reproducibility of kombucha fermentation over several production cycles based on backslopping. Six conditions with varying oxygen accessibility (specific interface surface) and initial acidity (through the inoculation rate) of the cultures were carried out and compared to an original kombucha consortium and a synthetic consortium assembled from yeasts and bacteria isolated from the original culture. Output parameters monitored were microbial populations, biofilm weight, key physico-chemical parameters and metabolites. Results highlighted the existence of phases in microbial dynamics as backslopping cycles progressed. The transitions between phases occurred faster for the synthetic consortium compared to the original kombucha. This led to microbial dynamics and fermentative kinetics that were reproducible over several cycles but that could also deviate and shift abruptly to different behaviors. These changes were mainly induced by an increase in the Saccharomyces cerevisiae population, associated with an intensification of sucrose hydrolysis, sugar consumption and an increase in ethanol content, without any significant acceleration in the rate of acidification. The study suggests that the reproducibility of kombucha fermentations relies on high biodiversity to slow down the modulations of microbial dynamics induced by the sustained rhythm of backslopping cycles. [ABSTRACT FROM AUTHOR]

Published

2024

8. Novel Conductive Polymer Composite PEDOT:PSS/Bovine Serum Albumin for Microbial Bioelectrochemical Devices.

Author

Tarasov, Sergei E., Plekhanova, Yulia V., Bykov, Aleksandr G., Kadison, Konstantin V., Medvedeva, Anastasia S., Reshetilov, Anatoly N., and Arlyapov, Vyacheslav A.

Subjects

MICROBIAL fuel cells, SERUM albumin, FUEL cell electrodes, ACETOBACTER, CARBON electrodes, CONDUCTING polymer composites, CONDUCTING polymers

Abstract

A novel conductive composite based on PEDOT:PSS, BSA, and Nafion for effective immobilization of acetic acid bacteria on graphite electrodes as part of biosensors and microbial fuel cells has been proposed. It is shown that individual components in the composite do not have a significant negative effect on the catalytic activity of microorganisms during prolonged contact. The values of heterogeneous electron transport constants in the presence of two types of water-soluble mediators were calculated. The use of the composite as part of a microbial biosensor resulted in an electrode operating for more than 140 days. Additional modification of carbon electrodes with nanomaterial allowed to increase the sensitivity to glucose from 1.48 to 2.81 μA × mM−1 × cm−2 without affecting the affinity of bacterial enzyme complexes to the substrate. Cells in the presented composite, as part of a microbial fuel cell based on electrodes from thermally expanded graphite, retained the ability to generate electricity for more than 120 days using glucose solution as well as vegetable extract solutions as carbon sources. The obtained data expand the understanding of the composition of possible matrices for the immobilization of Gluconobacter bacteria and may be useful in the development of biosensors and biofuel cells. [ABSTRACT FROM AUTHOR]

Published

2024

9. Innovative Bicultured Lactic–Acetic Acid Co-fermentation Improves Jujube Puree's Functionality and Volatile Compounds.

Author

Boasiako, Turkson Antwi, Xiong, Yuqing, Boateng, Isaac Duah, Appiagyei, Jeffrey, Li, Yanshu, Clark, Kerry, Aregbe, Afusat Yinka, Yaqoob, Sanabil, and Ma, Yongkun

Subjects

PHENOLIC acids, JUJUBE (Plant), ACETOBACTER, GAS chromatography/Mass spectrometry (GC-MS), ELECTRONIC noses, LACTIC acid bacteria

Abstract

Jujubes (Ziziphus jujuba Mill), characterized by a rich profile of bioactive compounds, have been historically less exploited due to their unappealing sensory characteristics when dried, including delayed bitterness and a limited shelf life when fresh. Co-fermented jujube puree has emerged as a strategy for enhancing its functional food potential. This study examined the impact of 8-day bicultured Junzao jujube puree, employing both commercial and indigenous Chinese lactic and acetic acid bacteria. Our investigation encompassed an assessment of functionality (cellular profile, antioxidant properties, color, free amino acids, phenolic profiling, volatiles elucidation using headspace-solid phase microextraction gas chromatography–mass spectrometry (HS-SPME-GC-MS), aroma analysis using electronic nose), and microstructural analysis using scanning electron microscopy (SEM). Viable counts of bicultured purees showed probiotic effects exceeding 6–7 log CFU/mL. Strong positive correlations were observed between phenolic compounds (chlorogenic acid, rutin, p-coumaric acid) and antioxidant capacities (ABTS-RSA and DPPH-RSA). The darker color of raw jujube puree was modified, exemplified by a significant (p < 0.05) negative correlation between overall color difference and cyanidin 3-O-rutinoside (R2 = −0.768). Purees, particularly those containing bicultures of Lactobacillus helveticus Lh 43 and Acetobacter pasteurianus Ap-As.1.41 HuNiang 1.01 exhibited the highest potential free amino acid content (157.17 ± 1.12 mg/100 g FW) compared to the control (184.03 ± 1.16 mg/100 g FW) with a distinctive formation of L-methionine in biculture of Lactiplantibacillus plantarum Lp 28 and A. pasteurianus Ap-As.1.41 HuNiang 1.01. The phenolic profile of Lacticaseibacillus casei Lc 122 and A. pasteurianus Ap-As.1.41 HuNiang 1.01 increased by 22.79% above the control (48.34 mg/100 g FW) while biculture: L. helveticus Lh 43 and A. pasteurianus Ap-As.1.41 HuNiang 1.01 were enhanced by 4.37%, with the lowest profile in Lp. plantarum Lp 28 and A. pasteurianus Ap-As.1.41 HuNiang 1.01 (46.85 mg/100 g FW). The electronic nose revealed the predominant presence of sulfur, terpenes, and alcohol sensor bioactives in the fermented purees. HS-SPME-GC-MS analysis identified 80 volatile compounds in the bicultured purees, with esters constituting the major group (42%). Furthermore, SEM analysis unveiled massive microscopic alterations in the bicultured purees compared to the unfermented puree. These results collectively demonstrated that lactic–acetic acid co-fermentation serves to biovalorize Junzao jujube puree, enhancing its organoleptic appeal and extending its shelf life. [ABSTRACT FROM AUTHOR]

Published

2024

10. Physical–Chemical and Metataxonomic Characterization of the Microbial Communities Present during the Fermentation of Three Varieties of Coffee from Colombia and Their Sensory Qualities.

Author

Holguín-Sterling, Laura, Pedraza-Claros, Bertilda, Pérez-Salinas, Rosangela, Ortiz, Aristófeles, Navarro-Escalante, Lucio, and Góngora, Carmenza E.

Subjects

ACETOBACTER, MICROBIAL communities, FERMENTATION, BACTERIAL diversity, COFFEE, BEVERAGE analysis

Abstract

The microbial composition and physical-chemical characteristics were studied during the coffee fermentation of three Coffea arabica L. varieties, Var. Tabi, Var. Castillo General® and Var. Colombia. Mucilage and washed coffee seeds samples were collected at different stages of fermentation. Mucilage microbiology characterization and metataxonomic analysis were performed using 16S rDNA sequencing to determine bacterial diversity and ITS sequencing for fungal diversity. Additionally, the microorganisms were isolated into pure cultures. The molecular diversity analyses showed similarities in microorganisms present during the fermentation of Var. Castillo General and Var. Colombia, which are genetically closely related; mixed-acid bacteria (Enterobacteriaceae, Tatumella sp.) and lactic acid bacteria (Leuconostoc sp., Weissella sp. and Lactobacillaceae) were common and predominant, while in Var. Tabi, acetic acid bacteria (Gluconobacter sp. and Acetobacter sp.) and Leuconostoc sp. were predominant. At the end of the fermentation period, the fungi Saccharomycodaceae, Pichia and Wickerhamomyces were found in Var. Castillo General and Var. Colombia, while in Var. Tabi, Saccharomycodaceae, Pichia and Candida were recorded. Sensory analyses of the coffee beverages were carried out (SCA methodology) for all samples. Var. Tabi had the highest SCA score, between 82.7 and 83.2, while for Var. Colombia, the score ranged between 82.1 and 82.5. These three coffee varieties showed potential for the production of specialty coffees influenced by spontaneous fermentation processes that depend on microbial consortia rather than a single microorganism. [ABSTRACT FROM AUTHOR]

Published

2023

11. Microbial and Chemical Changes during Fermentation of Coconut Water Kefir Beverage.

Author

Limbad, Mansi, Gutierrez-Maddox, Noemi, Hamid, Nazimah, Kantono, Kevin, Liu, Tingting, and Young, Tim

Subjects

FERMENTED beverages, COCONUT water, KEFIR, LACTIC acid, PYRUVIC acid, FERMENTED foods, ACETOBACTER, SUCROSE

Abstract

This study investigated changes in the microbial growth and chemical characteristics of coconut water kefir (CWK) during fermentation. The carbohydrate profile, in terms of glucose and sucrose consumption, production of carboxylic acids, and changes in amino acid profile, was determined during CWK fermentation over a period of 96 h. The results showed that the kefir grains were able to utilise both glucose and sucrose and produce significant quantities of carboxylic acids after 96 h of fermentation. The total titratable acidity significantly increased throughout 96 h of incubation at 30 °C, which correlated to a significant drop in pH to 2.8 for CWK supplemented with 12 g/L of sucrose. In addition, this was accompanied by a significant increase in lactic acid, acetic acid, and pyruvic acid. During fermentation, a total of eighteen amino acids were generated, with a notable decline observed across all amino acids. Among them, glutamic acid exhibited a higher concentration compared to the other amino acids. The Scanning Electron Microscope (SEM) results confirmed a higher density of lactic acid bacteria (LAB) and acetic acid bacteria (AAB), with fewer yeast cells through morphological identification. Overall, the findings support the notion that coconut water fermented with kefir could be used as a potential functional starter to produce other fermented food products or a refreshing beverage. [ABSTRACT FROM AUTHOR]

Published

2023

12. A Microbial Co-Culturing System for Producing Cellulose-Hyaluronic Acid Composites.

Author

Brugnoli, Marcello, Mazzini, Ilaria, La China, Salvatore, De Vero, Luciana, and Gullo, Maria

Subjects

HYALURONIC acid, HYDROXYAPATITE, THYMOL, ACETOBACTER, SCANNING electron microscopy, INFRARED spectroscopy, LACTIC acid bacteria, STAPHYLOCOCCUS aureus

Abstract

In this study, a co-culture system combining bacterial cellulose (BC) producers and hyaluronic acid (HA) producers was developed for four different combinations. AAB of the genus Komagataeibacter sp. and LAB of the Lactocaseibacillus genus were used to produce BC and HA, respectively. Fourier-transform infrared spectroscopy, scanning electron microscopy, and X-ray diffraction were used to investigate changes in BC-HA composites chemical and morphological structure. Water absorption, uptake, and antibacterial properties were also tested. Outcomes highlighted a higher bacterial cellulose yield and the incorporation of hyaluronic acid into the composite. The presence of hyaluronic acid increased fiber dimension—nearly doubled for some combinations—which led to a decreased crystallinity of the composites. Different results were observed based on the BC producer and HA producer combination. However, water holding capacity (WHC) in all the samples improved with the presence of HA, while water uptake worsened. A thymol-enriched BC-HA composite showed high antibacterial activity against Escherichia coli DSM 30083T and Staphylococcus aureus DSM 20231T. Results could contribute to opening new applications in the cosmetics or pharmaceutical fields. [ABSTRACT FROM AUTHOR]

Published

2023

13. Chemical and Aromatic Changes during Fermentation of Kombucha Beverages Produced Using Strawberry Tree (Arbutus unedo) Fruits.

Author

Tejedor-Calvo, Eva and Morales, Diego

Subjects

KOMBUCHA tea, FERMENTED beverages, STRAWBERRIES, ACETOBACTER, FRUIT, FERMENTATION

Abstract

The use of alternative ingredients in the production of kombucha has seen a recent increase. Our research aimed to characterize the chemical, nutritional, microbial, and aromatic profiles of kombucha beverages prepared with strawberry tree (Arbutus unedo) fruits fermented with three different SCOBYs for 21 days. The analyses showed similar levels of microbiological groups (aerobic mesophilic microorganisms, lactic acid bacteria, acetic acid bacteria, and yeasts)among the SCOBYs used. The beverages studied displayed a decrease in pH value and carbohydrate content, and protein degradation was also observed as fermentation progressed. However, the increase in total phenolic compounds during the first week proved to be a point of interest. A total of 20 volatile organic compounds were detected, giving different sensory qualities to the beverages: higher ethanol, benzaldehyde-4-ethyl, or acetic acid depending on the SCOBY used. The results obtained indicated that strawberry tree kombucha might be an alternative beverage with notable nutritional and aromatic properties, with fermentation time and SCOBY composition being identified as crucial factors. [ABSTRACT FROM AUTHOR]

Published

2023

14. Analysis of Bacterial Diversity in Fermented Grains of Baijiu Based on Culturomics and Amplicon Sequencing.

Author

Wang, Jiaxuan, Hao, Shuyue, and Ren, Qing

Subjects

BACTERIAL diversity, GRAIN, ACETOBACTER, MICROBIAL communities, MICROBIAL diversity, LIBRARY resources

Abstract

Baijiu is a traditional distilled liquor in China. The unique flavor developed during the fermentation process of Baijiu is closely related to the microorganisms in the fermented grains of the Baijiu. Fermented grain is a solid material that has not been distilled after the fermentation of Baijiu. It is of great significance to study the bacterial diversity in fermented grains and to isolate and culture them to reveal the formation mechanism of the flavor substances in Baijiu. In this study, the diversity of bacteria in fermented grains was studied by the combination of amplicon sequencing and culturomics, and a pure culture of culturable strains was obtained. The results of amplicon sequencing showed that the bacteria detected in the fermented grains were classified into 5 phyla, 8 classes, 24 orders, 34 families, and 45 genera, of which Lactobacillus (66.95%) and Acetobacter (32.36%) were the dominant genera. By using the method of culturomics, five pH gradients (pH = 3, 4, 5, 6, and 7) of enrichment culture medium and solid medium with different components were designed to enrich and isolate the culturable bacteria in the fermented grains. A total of 323 strains of bacteria were obtained, belonging to 53 genera and 118 species, and 14 suspected new species were obtained. Among the bacteria isolated by the culturomics, 14 genera were detected by amplicon sequencing, and 39 genera were not detected, indicating that the culturomics method can isolate and culture bacteria with low abundance in fermented grains. Compared with the traditional culture method, culturomics expanded the culturable bacteria in the fermented grains to 188%. The diversity of the bacteria in the fermented grains of Baijiu was analyzed by amplicon sequencing and culturomics, and the microbial community composition and relative abundance of fermented grains were comprehensively revealed. At the same time, the acquisition of more pure cultures of culturable bacteria provides more choices for the liquor-making microbial resource library. [ABSTRACT FROM AUTHOR]

Published

2023

15. Fungal Carboxymethyl Chitosan-Impregnated Bacterial Cellulose Hydrogel as Wound-Dressing Agent.

Author

Suneetha, Maduru, Won, So-Yeon, Zo, Sun Mi, and Han, Sung Soo

Subjects

CARBOXYMETHYLCELLULOSE, CHITOSAN, HYDROGELS, ACETOBACTER, POLYMER networks

Abstract

Bacterial cellulose (BC) produced by Gluconoacetobacter hansenii is a suitable polymeric fiber network for wound-dressing purposes, but its lack of antibacterial properties limits it from healing bacterial wounds. We developed hydrogels by impregnating fungal-derived carboxymethyl chitosan to BC fiber networks using a simple solution immersion method. The CMCS–BC hydrogels were characterized using various characterization techniques such as XRD, FTIR, water contact angle measurements, TGA, and SEM to know the physiochemical properties. The results show that the impregnation of CMCS into BC fiber networks greatly influences BC's improving hydrophilic nature, which is crucial for wound healing applications. Furthermore, the CMCS–BC hydrogels were studied for biocompatibility analysis with skin fibroblast cells. The results revealed that by increasing the CMCS content in the BC, biocompatibility, cell attachment, and spreading capacity also increase. The antibacterial activity of CMCS–BC hydrogels is shown using the CFU method against Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus). As a result, the CMCS–BC hydrogels exhibit more suitable antibacterial properties than those without BC due to the CMCS having amino groups that enhance antibacterial properties. Therefore, CMCS–BC hydrogels can be considered suitable for antibacterial wound dressing applications. [ABSTRACT FROM AUTHOR]

Published

2023

16. Killing Bacteria Using Acetic Acid and Nanosecond Pulsed Electric Fields—An In Vivo Superficial Infection Model Study and Immune Response.

Author

Perminaitė, Emilija, Zinkevičienė, Auksė, Malyško-Ptašinskė, Veronika, Radzevičiūtė, Eivina, Novickij, Jurij, Girkontaitė, Irutė, and Novickij, Vitalij

Subjects

ACETOBACTER, ELECTRIC fields, ANTIBIOTICS, DRUG resistance in bacteria, IMMUNE response, ACETIC acid, HEPATITIS B virus

Abstract

Invasive infections caused by drug-resistant bacteria are a problem responsible for many fatal cases, especially in burn wound care centers, while bacterial resistance to antibiotics is growing dramatically worldwide. In this work, we utilize pulsed electric fields (up to 25 kV/cm × 750 ns) in combination with low-concentration (1%) acetic acid for the inactivation of P. aeruginosa. An in vivo superficial infection model is developed in BALB/C mice using a luminescent strain of P. aeruginosa. We show that an up to 25 kV/cm electric field (3 kV, 1.2 mm gap), when combined with acetic acid, induces a bacteriostatic effect, preventing further infection for up to 7 days after treatment. Additionally, we evaluate antibodies against surface and intracellular P. aeruginosa bacteria antigens following the treatment. It is shown that the levels of surface IgG and IgG1 antibodies are significantly lower in the murine serum of electric-field-treated mice compared to the bacterial-infection-bearing group of mice treated with acetic acid alone. The results of this work are useful as a proof of concept for the development of novel clinical procedures to fight drug-resistive microorganisms responsible for wound contamination and chronic wounds. [ABSTRACT FROM AUTHOR]

Published

2023

17. Comparative Genomics and Phenotypic Characterization of Gluconacetobacter entanii , a Highly Acetic Acid-Tolerant Bacterium from Vinegars.

Author

Jelenko, Karin, Cepec, Eva, Nascimento, Francisco X., and Trček, Janja

Subjects

ACETOBACTER, COMPARATIVE genomics, VINEGAR, PHENOTYPES, ACETIC acid, BACTERIA classification

Abstract

The bacterial species Gluconacetobacter entanii belongs to a group of acetic acid bacteria. In 2000, it was described as a primary species of submerged spirit vinegar-producing bioreactors with a strict requirement of acetic acid, ethanol, and glucose for growth. Over the years, the type-strain of G. entanii deposited in international culture collections has lost the ability for revitalization and is thus not available any more in a culturable form. Here, we have systematically characterized phenotypic features and genomes of recently isolated G. entanii strains and compared them with characteristics of the type-strain available from published data. Using the functional annotation, genes gmhB and psp were identified as unique for G. entanii genomes among species in the clade Novacetimonas. The genome stability of G. entanii was assessed after 28 and 43 months of preculturing the strain Gluconacetobacter entanii AV429 twice a week. The strain G. entanii AV429 did not accumulate giant insertions or deletions but a few gene mutations. To unify further research into acetic acid bacteria systematics and taxonomy, we propose G. entanii AV429 as the neotype strain. [ABSTRACT FROM AUTHOR]

Published

2023

18. Storage Potential of the Cactus Pear (Opuntia ficus-indica) Fruit Juice and Its Biological and Chemical Evaluation during Fermentation into Cactus Pear Wine.

Author

Ramoba, Louis, Monyama, Maropeng Charles, and Moganedi, Kgabo

Subjects

OPUNTIA ficus-indica, PEARS, FRUIT juices, CACTUS, ACETOBACTER, WINE making

Abstract

The cactus pear (Opuntia ficus-indica) fruit is widely cultivated and grown naturally in arid regions because it is adaptive to a wide range of soil and environments. The pear fruit is inhabited by different micro-organisms and has chemical composition suitable for wine making. Profiling the contributing micro-organisms and evaluating the chemical parameters of cactus pear wine can assist in selecting reliable microbes for use as starter cultures. Spontaneous fermentation was carried out for 13 days and followed by three months of cold storage. Fermenting microbes were isolated, characterised and identified. The chemical parameters, namely, sugar concentration, ethanol concentration, pH and total acidity, were analysed. A total of 22 micro-organisms were identified, among which nine yeast species, two acetic acid bacteria (Gluconobacter spp.) and eight Bacillus spp. were isolated. The simple sugars were used up, and ethanol was produced to a high concentration of 50.9 g/L. The pH ranged between 2.8 and 2.9; hence, a maximum total acidity of ±25 g/100 mL was achieved. At least 78% of the available tannins were used in the early stages of fermentation. Potassium and magnesium were the highest minerals obtained, and zinc was the lowest. The highest ash content obtained was 7.9 g/100 mL. The vitamin C content was retained and gradually increased throughout the fermentation process. The findings indicate that lasting flavoured wine can be developed from cactus pear fruit because of the fermenting microbes and the chemical composition of the fruit. [ABSTRACT FROM AUTHOR]

Published

2022

19. Kombucha: Production and Microbiological Research †.

Author

Wang, Boying, Rutherfurd-Markwick, Kay, Zhang, Xue-Xian, and Mutukumira, Anthony N.

Subjects

KOMBUCHA tea, ORGANIC acids, ACETOBACTER, MICROBIAL diversity, GENETIC techniques, SYSTEM identification, ACETIC acid

Abstract

Kombucha is a sparkling sugared tea commonly prepared using a sugared tea infusion and fermented at ambient temperature for several days using a cellulose pellicle also called tea fungus that is comprised of acetic acid bacteria and yeast. Consumption of Kombucha has been reported as early as 220 B.C. with various reported potential health benefits and appealing sensory properties. During Kombucha fermentation, sucrose is hydrolysed by yeast cells into fructose and glucose, which are then metabolised to ethanol. The ethanol is then oxidised by acetic acid bacteria (AAB) to produce acetic acid which is responsible for the reduction of the pH and also contributes to the sour taste of Kombucha. Characterisation of the AAB and yeast in the Kombucha starter culture can provide a better understanding of the fermentation process. This knowledge can potentially aid in the production of higher quality products as these microorganisms affect the production of metabolites such as organic acids which are associated with potential health benefits, as well as sensory properties. This review presents recent advances in the isolation, enumeration, biochemical characteristics, conventional phenotypic identification system, and modern genetic identification techniques of AAB and yeast present in Kombucha to gain a better understanding of the microbial diversity of the beverage. [ABSTRACT FROM AUTHOR]

Published

2022

20. Simple and Effective Derivatization of Amino Acids with 1-Fluoro-2-nitro-4-(trifluoromethyl)benzene in a Microwave Reactor for Determination of Free Amino Acids in Kombucha Beverages.

Author

Jastrzębska, Aneta, Gralak, Zuzanna, Brzuzy, Kamil, Kmieciak, Anna, Krzemiński, Marek P., Burdziński, Rafał, Kurzawa, Marzanna, and Szłyk, Edward

Subjects

KOMBUCHA tea, AMINO acids, AMINO acid derivatives, ACETOBACTER, AMINO acid synthesis, DERIVATIZATION, AMINO acid analysis

Abstract

Kombucha is a fermentation product of sweetened tea with a symbiotic culture of acetic acid and yeast bacteria, consumed worldwide for its health-promoting properties. Few reports can be found about free amino acids among the health-promoting compounds found and determined in kombucha. These compounds influence the sensory properties of kombucha, and they are precursors of bioactive compounds, which have a significant role as neurotransmitters and are involved in biological functions. The presented studies proposed a convenient, simple, and "more green" procedure of the synthesis of amino acid derivatives, assisted by microwave energy, followed by chromatographic determination. The structure of 1-Fluoro-2-nitro-4-(trifluoromethyl)benzene was used as a suitable reagent for the derivatization of free amino acids in fermented kombucha beverages prepared from selected dry fruit such as Crataegus L., Morus alba L., Sorbus aucuparia L., Berberis vulgaris L., Rosa canina L., and black tea. The obtained results were discussed regarding the tested beverages' application as a source of amino acids in one's daily diet. The obtained results point out that the proposed microwave-assisted derivatization procedure prior to HPLC analyses allows for a significant time reduction and the limitation of using organic reagents. [ABSTRACT FROM AUTHOR]

Published

2022

21. Gluconobacter Oxydans -Based MFC with PEDOT:PSS/Graphene/Nafion Bioanode for Wastewater Treatment.

Author

Tarasov, Sergei, Plekhanova, Yulia, Kashin, Vadim, Gotovtsev, Pavel, Signore, Maria Assunta, Francioso, Luca, Kolesov, Vladimir, and Reshetilov, Anatoly

Subjects

WASTEWATER treatment, NAFION, MICROBIAL fuel cells, ACETOBACTER, MICROBIAL metabolism

Abstract

Microbial fuel cells (MFCs) are a variety of bioelectrocatalytic devices that utilize the metabolism of microorganisms to generate electric energy from organic matter. This study investigates the possibility of using a novel PEDOT:PSS/graphene/Nafion composite in combination with acetic acid bacteria Gluconobacter oxydans to create a pure culture MFC capable of effective municipal wastewater treatment. The developed MFC was shown to maintain its activity for at least three weeks. The level of COD in municipal wastewater treatment was reduced by 32%; the generated power was up to 81 mW/m2 with a Coulomb efficiency of 40%. Combining the MFC with a DC/DC boost converter increased the voltage generated by two series-connected MFCs from 0.55 mV to 3.2 V. A maximum efficiency was achieved on day 8 of MFC operation and was maintained for a week; capacitors of 6800 µF capacity were fully charged in ~7 min. Thus, G. oxydans cells can become an important part of microbial consortia in MFCs used for treatment of wastewaters with reduced pH. [ABSTRACT FROM AUTHOR]

Published

2022

22. Chemical Composition of Kombucha.

Author

Bishop, Peyton, Pitts, Eric R., Budner, Drew, and Thompson-Witrick, Katherine A.

Subjects

KOMBUCHA tea, ACETOBACTER, RICE wines, YEAST culture, CHEMICAL potential

Abstract

Kombucha is a fermented sweetened tea with a mixed fermenting culture of yeast and acetic acid bacteria. While the history of kombucha is not completely clear, it is now available around the world and has shown an increase in availability and demand in the United States market. The proponents of kombucha consumption tout the varied health benefits it can provide. The final kombucha flavor and composition is a function of both the initial tea used and the fermentation process. While the ascribed benefits are varied and numerous, the number of direct studies has been limited. This review focuses on the current state of understanding of the chemical composition and the potential health effects both positive and negative reported in the literature. [ABSTRACT FROM AUTHOR]

Published

2022

23. Real Time Monitoring of Wine Vinegar Supply Chain through MOX Sensors.

Author

Genzardi, Dario, Greco, Giuseppe, Núñez-Carmona, Estefanía, and Sberveglieri, Veronica

Subjects

VINEGAR, METAL oxide semiconductors, ACETOBACTER, SUPPLY chains, ELECTRONIC noses

Abstract

Vinegar is a fermented product that is appreciated world-wide. It can be obtained from different kinds of matrices. Specifically, it is a solution of acetic acid produced by a two stage fermentation process. The first is an alcoholic fermentation, where the sugars are converted in ethanol and lower metabolites by the yeast action, generally Saccharomyces cerevisiae. This was performed through a technique that is expanding more and more, the so-called "pied de cuve". The second step is an acetic fermentation where acetic acid bacteria (AAB) action causes the conversion of ethanol into acetic acid. Overall, the aim of this research is to follow wine vinegar production step by step through the volatiloma analysis by metal oxide semiconductor MOX sensors developed by Nano Sensor Systems S.r.l. This work is based on wine vinegar monitored from the grape must to the formed vinegar. The monitoring lasted 4 months and the analyses were carried out with a new generation of Electronic Nose (EN) engineered by Nano Sensor Systems S.r.l., called Small Sensor Systems Plus (S3+), equipped with an array of six gas MOX sensors with different sensing layers each. In particular, real-time monitoring made it possible to follow and to differentiate each step of the vinegar production. The principal component analysis (PCA) method was the statistical multivariate analysis utilized to process the dataset obtained from the sensors. A closer look to PCA graphs affirms how the sensors were able to cluster the production steps in a chronologically correct manner. [ABSTRACT FROM AUTHOR]

Published

2022

24. A Metagenetic Insight into Microbial Diversity of Spontaneously Fermented Polish Red Wines and an Analysis of Selected Physicochemical Properties.

Author

Kordowska-Wiater, Monika, Pytka, Monika, Stój, Anna, Kubik-Komar, Agnieszka, Wyrostek, Jakub, and Waśko, Adam

Subjects

MICROBIAL diversity, RED wines, ACETOBACTER, LACTIC acid bacteria, VITICULTURE, BACTERIAL diversity, CLIMATE change, VINEYARDS

Abstract

Due to changes in climatic conditions in Poland interest in viticulture and wine production has considerably boosted. One of the worldwide trends in winemaking is use of indigenous strains of yeast and lactic acid bacteria (LAB). The aim of the study was to analyse the microbial diversity of Polish red wines and their key properties and combine them for better understanding of the processes responsible for creating the sensory attributes. Metagenetic analysis was used to characterise the bacterial and yeast diversity of wines produced by spontaneous fermentation of grapes of the Regent variety, which came from three vineyards: "Dom Bliskowice" (DB), "Małe Dobre" (MD), and "Winnica Janowiec" (WJ). Among bacteria, Tatumella ptyseos was the most abundant species in DB and WJ wines and Leuconostoc pseudomesenteroides was the most abundant in MD wine. Among yeasts, Saccharomyces cerevisiae was found in DB and WJ wines, Saccharomyces cariocanus in MD wine, and Hanseniaspora uvarum in all samples studied. Studied wines had statistically significantly different antioxidant capacities and distinct glucose, fructose, and lactic acid concentrations. The presence of acetic and lactic acid bacteria was positively related to the concentrations of acetic and lactic acid, respectively, while the lack of malic acid was indicative of malolactic fermentation. This knowledge may be useful in the development of unique local starter cultures for the production of wines with specific characteristics. [ABSTRACT FROM AUTHOR]

Published

2022

25. The Novel Strain of Gluconobacter oxydans H32 Isolated from Kombucha as a Proposition of a Starter Culture for Sour Ale Craft Beer Production.

Author

Neffe-Skocińska, Katarzyna, Kruk, Marcin, Ścibisz, Iwona, and Zielińska, Dorota

Subjects

ACETOBACTER, ALE, BEER, CRAFT beer, GLUCONIC acid, KOMBUCHA tea, FUNCTIONAL foods

Abstract

Acetic acid bacteria (AAB) has found applications in food technology, including beverages and vinegar. Generally, AAB shows several beneficial properties and has technological usefulness. Properly selected and tested strains of this group of bacteria may constitute a new and interesting solution among starter cultures for functional food. Therefore, the study aimed to develop a sour beer technology, based on the novel strain Gluconobacteroxydans H32. The microbiological, physical-chemical (HPLC method), and sensory (QDP method) quality were determined during 6 months of storage of dark and light beer samples. The AAB count at the beginning of storage was approximately 8 log CFU mL−1, and 6 log CFU mL−1 after 6 months of storage. As a result of the metabolic activity, acetic acid, gluconic acid, and ascorbic acid were detected in the samples. The light beer had a significantly better sensory quality, especially sample BPGL with the addition of G. oxydans H32 starter culture. It was found that it is possible to develop a functional beer with the novel strain Gluconobacteroxydans H32. These Sour Ale craft beers were not only a good source of H32 strain but also its pro-health metabolites. [ABSTRACT FROM AUTHOR]

Published

2022

26. Non-Alcoholic Fermentation of Maize (Zea mays) in Sub-Saharan Africa.

Author

Mashau, Mpho Edward, Maliwichi, Lucy Lynn, and Obiefuna Jideani, Afam Israel

Subjects

FERMENTED beverages, NUTRITION, ANIMAL feeds, ACETOBACTER, FOOD preservation, FERMENTATION, CORN

Abstract

Maize, together with its fermented products, is fundamental for human nutrition and animal feed globally. Non-alcoholic fermentation of maize using lactic acid bacteria (LAB) is one of the food preservation methods that has been utilised throughout the centuries and has played a vital role in the manufacturing of many fermented beverages consumed these days. However, the coincidence of LAB and yeasts during the spontaneous fermentation of maize-based products is inevitable. The involvement of other microorganisms such as moulds, Bacillus species and acetic acid bacteria in the fermentation of maize is important to the characteristics of the final product. Fermented beverages are affordable, have been produced traditionally and are known for their organoleptic properties, as well as their health-promoting compounds. The consumption of nonalcoholic beverages has the prospect of reducing the detrimental health and economic effects of a poor diet. Different fermented maize-based gruels and beverages such as ogi, mawe, banku and kenkey in West Africa, togwa in East Africa, as well as mahewu in South Africa have been documented. The physical and biochemical properties of most of these maize-based fermented products have been investigated and modified by various researchers. Attempts to enhance the nutritional properties of these products rely on supplementation with legumes to supply the insufficient amino acids. The production technology of these products has evolved from traditional to industrial production in recent years. [ABSTRACT FROM AUTHOR]

Published

2021

27. Antibacterial Activity of Biocellulose with Oregano Essential Oil against Cronobacter Strains.

Author

Nagmetova, Gulden, Berthold-Pluta, Anna, Garbowska, Monika, Kurmanbayev, Askar, and Stasiak-Różańska, Lidia

Subjects

*ESSENTIAL oils, *CELLULOSE synthase, *CRONOBACTER, *ACETOBACTER, *OREGANO, *FOOD packaging

Abstract

Biocellulose, named "the biomaterial of the future", is a natural and ecologically friendly polymer, produced by selected acetic acid bacteria strains. Biocellulose impregnated with antimicrobial agents can be used as a novel, safe, and biodegradable food packaging material, helping extend the shelf life of some products and may also have the chance to replace typical plastic packaging, which is a big environmental problem these days. This study aimed to evaluate if cellulose impregned with natural oregano essential oil could show antibacterial activity against Cronobacter strains, which can occur in food, causing diseases and food poisoning. Bacterial cellulose was obtained from two acetic bacteria strains, Gluconacetobacter hansenii ATCC 23769 and Komagataeibacter sp. GH1. Antibacterial activity was studied by the disc-diffusion method against chosen Cronobacter strains, isolated from the plant matrix. Oregano essential oil has been shown to penetrate into the structure of bacterial cellulose, and after applying cellulose to the solid medium, it showed the ability to migrate. Biopolymer from the strain K. sp. GH1 was able to better absorb and retain essential oregano oil (OEO) compared to bacterial cellulose (BC) produced by the G. hansenii ATCC 23769. Bacterial cellulose with oregano essential oil from strain Komagataeibacter GH1 showed generally greater inhibitory properties for the growth of tested strains than its equivalent obtained from G. hansenii. This was probably due to the arrangement of the polymer fibers and its final thickness. The largest zone of inhibition of strain growth was observed in relation to C. condimenti s37 (32.75 mm ± 2.8). At the same time, the control sample using filter paper showed an inhibition zone of 36.0 mm ± 0.7. A similar inhibition zone (28.33 mm ± 2.6) was observed for the C. malonaticus lv31 strain, while the zone in the control sample was 27.1 mm ± 0.7. Based on this study, it was concluded that bacterial cellulose impregnated with oregano essential oil has strong and moderate antimicrobial activity against all presented strains of the genus Cronobacter isolated from plant matrix. Obtained results give a strong impulse to use this biopolymer as ecological food packaging in the near future. [ABSTRACT FROM AUTHOR]

Published

2020

28. Changes Occurring in Spontaneous Maize Fermentation: An Overview.

Author

Chaves-López, Clemencia, Rossi, Chiara, Maggio, Francesca, Paparella, Antonello, and Serio, Annalisa

Subjects

ACETOBACTER, CORN, LACTIC acid bacteria, FERMENTATION, NUTRITIONAL value, NEW product development

Abstract

Maize and its derived fermented products, as with other cereals, are fundamental for human nutrition in many countries of the world. Mixed cultures, principally constituted by lactic acid bacteria (LAB) and yeasts, are responsible for maize fermentation, thus increasing its nutritional value and extending the products' shelf-life. Other microorganisms involved, such as molds, acetic acid bacteria, and Bacillus spp. can contribute to the final product characteristics. This review gives an overview of the impact of the activities of this complex microbiota on maize product development and attributes. In particular, starting from amylolytic activity, which is able to increase sugar availability and influence the microbial succession and production of exopolysaccharides, vitamins, and antimicrobial compounds, which improve the nutritional value. Further activities are also considered with positive effects on the safety profile, such as phytates detoxification and mycotoxins reduction. [ABSTRACT FROM AUTHOR]

Published

2020

29. Bacteriophage GC1, a Novel Tectivirus Infecting Gluconobacter Cerinus, an Acetic Acid Bacterium Associated with Wine-Making.

Author

Philippe, Cécile, Krupovic, Mart, Jaomanjaka, Fety, Claisse, Olivier, Petrel, Melina, and le Marrec, Claire

Subjects

ACETOBACTER, BACTERIOPHAGES, WINE microbiology, TRANSMISSION electron microscopy, NUCLEOTIDE sequencing

Abstract

The Gluconobacter phage GC1 is a novel member of the Tectiviridae family isolated from a juice sample collected during dry white wine making. The bacteriophage infects Gluconobacter cerinus, an acetic acid bacterium which represents a spoilage microorganism during wine making, mainly because it is able to produce ethyl alcohol and transform it into acetic acid. Transmission electron microscopy revealed tail-less icosahedral particles with a diameter of ∼78 nm. The linear double-stranded DNA genome of GC1 (16,523 base pairs) contains terminal inverted repeats and carries 36 open reading frames, only a handful of which could be functionally annotated. These encode for the key proteins involved in DNA replication (protein-primed family B DNA polymerase) as well as in virion structure and assembly (major capsid protein, genome packaging ATPase (adenosine triphosphatase) and several minor capsid proteins). GC1 is the first tectivirus infecting an alphaproteobacterial host and is thus far the only temperate tectivirus of gram-negative bacteria. Based on distinctive sequence and life-style features, we propose that GC1 represents a new genus within the Tectiviridae, which we tentatively named "Gammatectivirus". Furthermore, GC1 helps to bridge the gap in the sequence space between alphatectiviruses and betatectiviruses. [ABSTRACT FROM AUTHOR]

Published

2018

30. Microbiological Research on Fermented Dairy Products.

Author

Xiao, Luyao and Li, Wei

Subjects

DAIRY products, YOGURT, FERMENTED milk, FERMENTED foods, ACETOBACTER, DRIED milk, LACTIC acid bacteria, MICROBIAL exopolysaccharides

Abstract

35159575 3 Tian J., Mao Q., Dong M., Wang X., Rui X., Zhang Q., Chen X., Li W. Structural Characterization and Antioxidant Activity of Exopolysaccharide from Soybean Whey Fermented by Lacticaseibacillus plantarum 70810. Soybean whey is a by-product of the soybean production and could be transformed into bioactive ingredients by microbial fermentation. Fermented dairy products are widely consumed worldwide due to the nutritional and health benefits. [Extracted from the article]

Published

2022

31. Preparation of Tubular Biocellulose Implants and Its Use in Surgery—A Review.

Author

Klemm, Dieter Otto, Raddatz, Vanessa, Petzold-Welcke, Katrin, Kramer, Friederike, Ruhe, Carola, Nietzsche, Sandor, Settmacher, Utz, and Rauchfuß, Falk

Subjects

ACETOBACTER, BIOPOLYMERS, ABDOMINAL surgery, ARTIFICIAL implants, BILE ducts

Abstract

This review highlights the current state regarding the preparation and characterization of tubular biocellulose materials as well as their application and application potential with a special focus on abdominal oncologic surgery. Biocellulose is a natural polymer synthesized by acetic acid bacteria from low molecular sugars and alcohols as a mechanically stable nanofiber network at the interface between the aqueous culture medium and air. This hydrogel is characterized by very high purity and biocompatibility, dimensional stability, and good surgical handling. With this property profile, biocellulose proves to be a promising candidate for the development of novel medical soft tissue implants. This requires close R&D cooperation between chemists, material scientists, biotechnologists, and surgeons. In this sense, this review spans from the natural polymer to the design of biocellulose implants and surgical suitability. It is also a concern of this article to show concretely the great need for such implants and the fields of application in oncological abdominal surgery where tubular biocellulose is or could be the focus of research. Furthermore, a critical assessment for the use of biocellulose materials concerning incidence malignancy and surgical interventions, complication rates, and current studies is emphasized. The regeneration of damaged bile ducts by the use of biocellulose implants is a first example. [ABSTRACT FROM AUTHOR]

Published

2021

32. Kombucha Tea—A Double Power of Bioactive Compounds from Tea and Symbiotic Culture of Bacteria and Yeasts (SCOBY).

Author

Antolak, Hubert, Piechota, Dominik, and Kucharska, Aleksandra

Subjects

KOMBUCHA tea, ACETOBACTER, BIOACTIVE compounds, YEAST culture, TEA, ALCOHOLIC beverages, LACTIC acid bacteria

Abstract

Kombucha is a low alcoholic beverage with high content of bioactive compounds derived from plant material (tea, juices, herb extracts) and metabolic activity of microorganisms (acetic acid bacteria, lactic acid bacteria and yeasts). Currently, it attracts an increasing number of consumers due to its health-promoting properties. This review focuses on aspects significantly affecting the bioactive compound content and biological activities of Kombucha tea. The literature review shows that the drink is characterized by a high content of bioactive compounds, strong antioxidant, and antimicrobial properties. Factors that substantially affect these activities are the tea type and its brewing parameters, the composition of the SCOBY, as well as the fermentation parameters. On the other hand, Kombucha fermentation is characterized by many unknowns, which result, inter alia, from different methods of tea extraction, diverse, often undefined compositions of microorganisms used in the fermentation, as well as the lack of clearly defined effects of microorganisms on bioactive compounds contained in tea, and therefore the health-promoting properties of the final product. The article indicates the shortcomings in the current research in the field of Kombucha, as well as future perspectives on improving the health-promoting activities of this fermented drink. [ABSTRACT FROM AUTHOR]

Published

2021

33. Electrochemical Determination of Antioxidant Capacity of Traditional Homemade Fruit Vinegars Produced with Double Spontaneous Fermentation.

Author

Chochevska, Maja, Jančovska Seniceva, Elizabeta, Veličkovska, Sanja Kostadinović, Naumova-Leţia, Galaba, Mirčeski, Valentin, Rocha, João Miguel F., and Esatbeyoglu, Tuba

Subjects

OXIDANT status, VINEGAR, ACETOBACTER, RADICAL cations, FRUIT, ORCHARDS

Abstract

In the current study, the antioxidant activity of traditional homemade fruit vinegars (HMV) was estimated by measuring the rate of homogeneous redox reaction with 2,2′-azino-bis-3-ethylbenzothiazoline-6-sulfonic acid radical cation (ABTS•+) using cyclic voltammetry. The antioxidant capacity of six HMV produced using traditional methods and the physicochemical characterization were measured in different vinegar production steps throughout a double spontaneous fermentation process, i.e., without any addition of yeasts or acetic acid bacteria. Their antioxidant capacity was compared with seven fruit commercial vinegars (ComV). Furthermore, the antioxidant capacity was independently measured with the TEAC (Trolox equivalent antioxidant capacity) assay, aiming at correlating with the electrochemical experimental data. Obtained results from both methods, the electrochemical and TEAC assays, interestingly indicated that all HMV have at least 10 times higher antioxidant activity than ComV. Furthermore, the large range of values for antioxidant capacity in samples of commercial vinegars from apples attested the importance of the raw material quality and technological procedures. The positive correlation between total phenolic content and antioxidant capacity measured by the two type of assays indicated that rose hip homemade vinegar (HMV5) has the highest antioxidant capacity. In contrast, the lowest levels of phenolic compounds and antioxidant capacity were found in apple and persimmon homemade vinegars (HMV1 and HMV6, respectively) which indicated that the type of fruit is crucial towards the production of high-quality vinegars. In this way, the use of traditional processes for the production of fruit vinegars proved to be very promising in terms of producing differentiated vinegars and, concomitantly, reaching high levels of health-promoting antioxidant capacities. [ABSTRACT FROM AUTHOR]

Published

2021

34. Bacterial Nanocellulose toward Green Cosmetics: Recent Progresses and Challenges.

Author

Almeida, Tânia, Silvestre, Armando J. D., Vilela, Carla, Freire, Carmen S. R., and Coburn, Jeannine M.

Subjects

ACETOBACTER, COSMETICS, SKIN care, COSMETICS industry

Abstract

In the skin care field, bacterial nanocellulose (BNC), a versatile polysaccharide produced by non-pathogenic acetic acid bacteria, has received increased attention as a promising candidate to replace synthetic polymers (e.g., nylon, polyethylene, polyacrylamides) commonly used in cosmetics. The applicability of BNC in cosmetics has been mainly investigated as a carrier of active ingredients or as a structuring agent of cosmetic formulations. However, with the sustainability issues that are underway in the highly innovative cosmetic industry and with the growth prospects for the market of bio-based products, a much more prominent role is envisioned for BNC in this field. Thus, this review provides a comprehensive overview of the most recent (last 5 years) and relevant developments and challenges in the research of BNC applied to cosmetic, aiming at inspiring future research to go beyond in the applicability of this exceptional biotechnological material in such a promising area. [ABSTRACT FROM AUTHOR]

Published

2021

35. Acetan and Acetan-Like Polysaccharides: Genetics, Biosynthesis, Structure, and Viscoelasticity.

Author

Trček, Janja, Dogsa, Iztok, Accetto, Tomaž, Stopar, David, and Vodnar, Dan C.

Subjects

ACETOBACTER, POLYSACCHARIDES, VISCOELASTICITY, GENETICS, MOLECULAR structure, BIOSYNTHESIS

Abstract

Bacteria produce a variety of multifunctional polysaccharides, including structural, intracellular, and extracellular polysaccharides. They are attractive for the industrial sector due to their natural origin, sustainability, biodegradability, low toxicity, stability, unique viscoelastic properties, stable cost, and supply. When incorporated into different matrices, they may control emulsification, stabilization, crystallization, water release, and encapsulation. Acetan is an important extracellular water-soluble polysaccharide produced mainly by bacterial species of the genera Komagataeibacter and Acetobacter. Since its original description in Komagataeibacter xylinus, acetan-like polysaccharides have also been described in other species of acetic acid bacteria. Our knowledge on chemical composition of different acetan-like polysaccharides, their viscoelasticity, and the genetic basis for their production has expanded during the last years. Here, we review data on acetan biosynthesis, its molecular structure, genetic organization, and mechanical properties. In addition, we have performed an extended bioinformatic analysis on acetan-like polysaccharide genetic clusters in the genomes of Komagataeibacter and Acetobacter species. The analysis revealed for the first time a second acetan-like polysaccharide genetic cluster, that is widespread in both genera. All species of the Komagataeibacter possess at least one acetan genetic cluster, while it is present in only one third of the Acetobacter species surveyed. [ABSTRACT FROM AUTHOR]

Published

2021

36. Metabolite Profile and Immunomodulatory Properties of Bellflower Root Vinegar Produced Using Acetobacter pasteurianus A11-2.

Author

Gil, Na-Young, Gwon, Hee-Min, Yeo, Soo-Hwan, and Kim, So-Young

Subjects

TIME-of-flight mass spectrometry, VINEGAR, ACETOBACTER, MALONIC acid, ORGANIC acids, ETHYL acetate

Abstract

Fermented vinegar is prepared from grains and medicinal plants. Here, we produced vinegar from peeled and unpeeled roots of bellflowers (Platycodon grandiflorum) using Acetobacter pasteurianus A11-2 and analyzed bellflower vinegar (BV) samples using gas chromatography–mass spectrometry and quadrupole time-of-flight mass spectrometry over 15 days of fermentation to assess the quality. We also evaluated their antibacterial and immunoenhancing effects using RAW 264.7 macrophage cells. The major metabolites in BV are organic acids, with the main volatile compounds being ethyl acetate, isoamyl acetate, 1-pentanol, hydroxypropanoic acid, and malonic acid. When we fermented BV from unpeeled roots for 10 days with a starter culture, we observed significant antibacterial and immunoenhancing effects in macrophages. Therefore, we could determine the metabolite and functional differences in vinegar obtained from bellflower roots and proposed that bellflower roots with peel are an effective substrate for developing vinegar and healthy food products. [ABSTRACT FROM AUTHOR]

Published

2020

37. Effect of Controlled Microbial Fermentation on Nutritional and Functional Characteristics of Cowpea Bean Flours.

Author

Ferreira, Luis M. M., Mendes-Ferreira, Ana, Benevides, Clícia M. J., Melo, Diana, Costa, Anabela S. G., Mendes-Faia, Arlete, and Oliveira, Maria Beatriz P. P.

Subjects

COWPEA, FLOUR, FERMENTATION, ACETOBACTER, BEANS, LACTOBACILLUS plantarum, LACTIC acid

Abstract

This study aimed to optimize bean flours fermentation through the use of appropriate technological procedure and, thereby, to obtain a high quality and safe product. In this line, cowpea bean flours with different moisture conditions (10, 20 and 30%) were incubated with (1) a single culture of Lactobacillus plantarum, or (2) a consortium of lactic acid and acetic acid bacteria, together with one strain of Saccharomyces cerevisiae. Effects of inoculation of cowpea beans flours on stability (i.e., evaluated by the decrease in pH), and variations in nutritional characteristics (i.e., protein, starch, water soluble carbohydrates, total dietary fibre) were investigated. In both fermented flours, the effect of fermentation was more noticeable in total water-soluble carbohydrate (WSC) concentration during the fermentation process (P < 0.001), accounted for by metabolic activity of the microorganisms. The pH values progressively decreased (P < 0.001) through the fermentation process, particularly in flours fermented with a single culture of L. plantarum. By contrast, titratable acidity increased (P < 0.001) throughout the fermentation process in F2 and F3, although more noticeable in F3. Total dietary fibre (TDF) was not variable over the time. In relation to the protein content, the fermentations behaved very similarly; F2 had a variation over the time, but the effect was not significant (P = 0.0690). Results revealed small changes in chemical composition except in the case of pH and sugar contents with the values lower in the fermented products (i.e., single- or mixed-culture fermentation), leading to a more stable and safety product. These results indicate that fermented dry beans flours have the potential as functional ingredients for new food formulations. [ABSTRACT FROM AUTHOR]

Published

2019

38. Bioprocess Intensification Using Flow Reactors: Stereoselective Oxidation of Achiral 1,3-diols with Immobilized Acetobacter Aceti.

Author

De Vitis, Valerio, Dall'Oglio, Federica, Tentori, Francesca, Contente, Martina Letizia, Romano, Diego, Brenna, Elisabetta, Tamborini, Lucia, and Molinari, Francesco

Subjects

IMMOBILIZED cells, ACETOBACTER, OXIDATION, DENTAL clinics, CONVERSION disorder

Abstract

Enantiomerically enriched 2-hydroxymethylalkanoic acids were prepared by oxidative desymmetrisation of achiral 1,3-diols using immobilized cells of Acetobacter aceti in water at 28 °C. The biotransformations were first performed in batch mode with cells immobilized in dry alginate, furnishing the desired products with high molar conversion and reaction times ranging from 2 to 6 h. The biocatalytic process was intensified using a multiphasic flow reactor, where a segmented gas–liquid flow regime was applied for achieving an efficient O2-liquid transfer; the continuous flow systems allowed for high yields and high biocatalyst productivity. [ABSTRACT FROM AUTHOR]

Published

2019

39. Bioleaching of Major, Rare Earth, and Radioactive Elements from Red Mud by using Indigenous Chemoheterotrophic Bacterium Acetobacter sp.

Author

Qu, Yang, Li, Hui, Wang, Xiaoqing, Tian, Wenjie, Shi, Ben, Yao, Minjie, and Zhang, Ying

Subjects

*RADIOACTIVE elements, *BACTERIAL leaching, *ACETOBACTER, *PULPING, *GIBBSITE, *RARE earth metals

Abstract

The aim was to study the bioleaching performance of chemoheterotrophic bacterium involved in leaching of major, rare earth, and radioactive elements from red mud (RM), and to explore the underlying mechanism. An acid-producing bacterium, identified as Acetobacter sp., was isolated from RM impoundment and used in the bioleaching experiments under one-step, two-step and spent medium process at up to 10% pulp density. The results showed that the leaching ratios of Al, Lu, Y, Sc, and Th were 55%, 53%, 61%, 52%, and 53% respectively under one-step process at 2% pulp density. Under both one- and two-step processes at 2% pulp density, the radioactivity of bioleached RM can meet the relevant regulation in China. The total amount of organic acids excreted by Acetobacter sp. increased with an increase of RM pulp density. After bioleaching, contents of hematite and gibbsite decreased but perovskite increased in RM. Micromorphology analysis indicated that the cells of Acetobacter sp. adhered to RM particles and formed large-size aggregates, and a new crystal of weddellite emerged. In view of the shorter lag phase and smaller biomass comparing to fungi even under direct contact with RM, bacterium Acetobacter sp. is supposed to apply to in situ heap or dump bioleaching of RM. [ABSTRACT FROM AUTHOR]

Published

2019