Brettanomyces/Dekkera off-flavor and other microbial spoilage

Off-flavors produced by undesirable microbial spoilage are a major concern in wineries, as they affect wine quality. This situation is worse in warm areas affected by global warming because of the resulting higher pHs in wines. Natural biotechnologies can aid in effectively controlling these processes, while reducing the use of chemical preservatives such as SO2. Bioacidification reduces the development of spoilage yeasts and bacteria, but also increases the amount of molecular SO2, which allows for lower total levels. The use of non-Saccharomyces yeasts, such as Lachancea thermotolerans, results in effective acidification through the production of lactic acid from sugars. Furthermore, high lactic acid contents (>4 g/L) inhibit lactic acid bacteria and have some effect on Brettanomyces. Additionally, the use of yeasts with hydroxycinnamate decarboxylase (HCDC) activity can be useful to promote the fermentative formation of stable vinylphenolic pyranoanthocyanins, reducing the amount of ethylphenol precursors. This biotechnology increases the amount of stable pigments and simultaneously prevents the formation of high contents of ethylphenols, even when the wine is contaminated by Brettanomyces.

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Synthesis Of Copper Nanometal Coupled With Vitamin-E And Investigating Its Potential To Control Oxidative Cell Damage And Microbial Spoilage In Seafood

Journal of University of Shanghai for Science and Technology ◽

10.51201/jusst/21/08456 ◽

2021 ◽

Vol 23 (08) ◽

pp. 678-693

Author(s):

Haris. V.T ◽

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Manohar. M ◽

Kuppannan Gobianand ◽

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...

Keyword(s):

Escherichia Coli ◽

Vitamin E ◽

Mtt Assay ◽

Cell Damage ◽

Green Emission ◽

Plate Count ◽

Diffusion Method ◽

Inhibitory Effects ◽

Microbial Spoilage ◽

Spoilage Bacteria

The metabolism of spoilage organism in the seafood is a major cause of fish spoilage. Lipid oxidation leads to production of intermediate peroxides causing bad odor and offflavour producing compounds. Hence, based on the hurdle technology method and applications of nanotechnology, the inhibitory effects of copper oxide nanoparticles coupled with vitamin-E (CuONPs+VE) was investigated with the aim of controlling the oxidative cell damage in seafood by estimating Reacting Oxygen Species (ROS) using 2’,7’- dichlorodihydrofluorescein diacetate (DCF) and preventing microbial spoilage by studying the cell viability using MTT assay in the present study. The MTT assay reveals that the CuONPs+VE inhibited the metabolic activity of spoilage bacteria which was confirmed from the inhibition percentage values against the test organisms. The CuONPs+VE exposed Escherichia coli reduced upto 86 ± 0.57% after enumerating the CFU in a Plate Count Agar media. Salmonella sp and Shigella sp exhibited 89 ± 1.04% and 85 ± 0.25% respectively. The qualitative inhibitory effect of Nanometal vitamin complex against three test bacteria, were evaluated by agar diffusion method. Among the four different concentrations of Nanometal vitamin complex, the higher concentration (4X – 40μg/ml) exhibited maximum inhibitory effects in terms of zone of clearance. Against Escherichia coli, 12.3 ± 1.25mm of inhibitory zones were found evident. Salmonella sp showed 15.6 ± 0.57mm of inhibitory zones and Shigella sp revealed the inhibition zone of about 16.6 ± 1.04mm. The anti-oxidative defence mechanisms operating in the cells for scavenging of ROS was performed using DCF. The cells which are pre-incubated with CuONPs+VE and then exposed to H2O2 show insignificant green emission indicating a clear advantage of the nanoparticle form of vitamin-E (CuONPs+VE) in preventing oxidative cell death.

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APPLICATION OF THE PREPARATION FROM MICROSCOPIC FUNGI IN THE TECHNOLOGY OF FRUIT PROCESSING BEFORE LAYING FOR STORAGE

BIOTECHNOLOGY: STATE OF THE ART AND PERSPECTIVES ◽

10.37747/2312-640x-2021-19-304-306 ◽

2021 ◽

Vol 1 (19) ◽

pp. 304-306

Author(s):

I.I. Grigorevskaya ◽

E.A. Yushina

Keyword(s):

Shelf Life ◽

Microscopic Fungi ◽

Microbial Spoilage ◽

Fruit Processing

The use of the preparation from the biomass of the micromycete Mortierella polycephala provides an increase in the reliability of protection of fruits from microbial spoilage and an increase in the shelf life of fruits.

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