Darya Avdanina scite author profile

In this study, we investigated biodeterioration of materials used in tempera painting by analyzing the structure of the microbiome in ancient tempera paintings exhibited in State Tretyakov Gallery, Moscow, Russia. Samples were obtained from 16 th-century paintings, including a grand Russian Orthodox icon "The Church Militant" (all exhibits were without visible signs of biodeterioration), and from surrounding walls and ceilings (with vast zones of visible microbial growth). A number of microorganisms isolated from visible signs of environmental bio-damage were also detected in tempera paintings kept in temperature-and humidity-controlled conditions unfavorable for the growth of microflora. To determine the biodegrading potential of the microbiome for tempera paintings, we developed a set of mock layers from paintwork materials used in tempera painting of 16 th century and their modern analogues and inoculated them with cultures containing filamentous fungi and bacteria. The susceptibility to microbial degradation of individual tempera painting materials was examined by micro-Fourier Transform Infrared (FTIR) spectroscopy, which enabled detection of even invisible signs of biodeterioration. The results indicate that the microorganisms isolated from paintings and surrounding areas in the museum are capable of causing significant damage of various tempera materials, among which varnishes were the most resistant; however, the addition of antiseptic (sodium pentachlorophenolate) can inhibit microbial growth on sturgeon glue.

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Discovery of novel N4-alkylcytidines as promising antimicrobial agents

Alexandrova

Jasko

Negrya

et al. 2021

European Journal of Medicinal Chemistry

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Search for Efficient Chitosan-Based Fungicides to Protect the 15th‒16th Centuries Tempera Painting in Exhibits from the State Tretyakov Gallery

et al. 2020

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3′-Amino modifications enhance the antifungal properties of N⁴-alkyl-5-methylcytidines for potential biocides

et al. 2022

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Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts

Avdanina

Zhgun

2022

Fermentation

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The manufacturing of sherry wines is a unique, carefully regulated process, from harvesting to quality control of the finished product, involving dynamic biological aging in a “criadera-solera” system or some other techniques. Specialized “flor” strains of the yeast Saccharomyces cerevisiae play the central role in the sherry manufacturing process. As a result, sherry wines have a characteristic and unique chemical composition that determines their organoleptic properties (such as color, odor, and taste) and distinguishes them from all other types of wine. The use of modern methods of genetics and biotechnology contributes to a deep understanding of the microbiology of sherry production and allows us to define a new methodology for breeding valuable flor strains. This review discusses the main sherry-producing regions and the chemical composition of sherry wines, as well as genetic, oenological, and other selective markers for flor strains that can be used for screening novel candidates that are promising for sherry production among environmental isolates.

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Darya Avdanina

Detection of potential biodeterioration risks for tempera painting in 16th century exhibits from State Tretyakov Gallery

Discovery of novel N4-alkylcytidines as promising antimicrobial agents

Search for Efficient Chitosan-Based Fungicides to Protect the 15th‒16th Centuries Tempera Painting in Exhibits from the State Tretyakov Gallery

3′-Amino modifications enhance the antifungal properties of N⁴-alkyl-5-methylcytidines for potential biocides

Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts

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About

Darya Avdanina

Detection of potential biodeterioration risks for tempera painting in 16th century exhibits from State Tretyakov Gallery

Discovery of novel N4-alkylcytidines as promising antimicrobial agents

Search for Efficient Chitosan-Based Fungicides to Protect the 15th‒16th Centuries Tempera Painting in Exhibits from the State Tretyakov Gallery

3′-Amino modifications enhance the antifungal properties of N4-alkyl-5-methylcytidines for potential biocides

Sherry Wines: Worldwide Production, Chemical Composition and Screening Conception for Flor Yeasts

Contact Info

Product

Resources

About

3′-Amino modifications enhance the antifungal properties of N⁴-alkyl-5-methylcytidines for potential biocides