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2. Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool

Author

Teneva, Ivanka, Belkinova, Detelina, Paunova-Krasteva, Tsvetelina, Bardarov, Krum, Moten, Dzhemal, Mladenov, Rumen, Dzhambazov, Balik, and Pensoft Publishers

Subjects
16S, biochemical markers, Cyanobacteria, metabolomics, Morphology, Phormidium autumnale, Phylogeny, polyphasic, TEM, TEM, ultrastructure
Published
2023

4. Integrated Biofilm Dispersion and Virulence Responsiveness for Targeted Treatment of Pseudomonas aeruginosa Infection in Lungs.

Author

Ivanova, Kristina, Ramon, Eva, Wnorowska, Urszula, Todorova, Katerina, Ivanova, Aleksandra, Bastos‐Arrieta, Julio, Puertas‐Segura, Antonio, Deptula, Piotr, Damyanova, Tsvetozara, Paunova‐Krasteva, Tsvetelina, Bucki, Robert, Ivanov, Ivan, and Tzanov, Tzanko

Subjects
PSEUDOMONAS aeruginosa infections, DRUG accessibility, DRUG bioavailability, CYSTIC fibrosis, STRAINS & stresses (Mechanics)
Abstract

The self‐organization of microbes into biofilms provides multiple benefits including tolerance to mechanical stress and resistance to immune defences and antibiotics. Coupled to a compromised mucociliary function, these traits have dire consequences in cystic fibrosis patients – persistent infections are the main reason for morbidity and mortality. Thereby, disease progression is associated with universal colonization by Pseudomonas aeruginosa, which selects for a slimy phenotype to adapt to the lung microenvironment. Recognizing this, drug‐delivery vehicles that break down the mucoid extracellular matrix made of alginate are designed to enable better penetration and biofilm dispersion. In parallel, a protective layer responds to the proteolytic activity of the pathogen and thus controls drug availability. To realize this architecture, silica nanoparticles are loaded with imipenem, and then coated with elastin and alginate lyase in a layer‐by‐layer fashion using ultrasound. The nanoscale formulations eradicate up to 80% of the total biomass and reduce the bacterial viability in biofilms by 3 logs, considerably outperforming the bulk antibiotic in vitro, whereby the effects are correlated to changes in the viscoelasticity. Furthermore, the stimuli‐responsive nanocarriers are safe and effective in animal models of P. aeruginosa infection, presenting a considerable therapeutic promise in the challenging context of lung diseases. [ABSTRACT FROM AUTHOR]

Published
2024
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6. The Isolation, Identification and Characterization of a Wild-Type Strain Pseudomonas aeruginosa PM1012 from the Cloacal Microbiota of a Common Wall Lizard (Podarcis muralis Laurenti, 1768).

Author

Lazarkevich, Irina, Engibarov, Stephan, Mitova, Simona, Eneva, Rumyana, Paunova-Krasteva, Tsvetelina, Borisova, Dayana, Vacheva, Emiliya, Stanchev, Nikola, Popova, Steliyana, Gocheva, Yana, and Gerginova, Maria

Subjects
LACERTIDAE, EXTRACELLULAR enzymes, PSEUDOMONAS aeruginosa, DRUG resistance in bacteria, GRAM-negative bacteria
Abstract

Pseudomonas aeruginosa is a ubiquitous environmental Gram-negative bacterium and also an opportunistic pathogen for both humans and animals, causing acute or chronic infections. It has been frequently detected in healthy and diseased reptiles, more commonly in captive ones. Since most studies are primarily on clinical isolates, the pathogenic potential of strains originating from wild animals is poorly explored. We isolated the strain P. aeruginosa PM1012 from the cloacal microbiota of a common wall lizard (Podarcis muralis Laurenti, 1768) from a free-living population. The effect of temperature, pH and salinity on its growth was evaluated. Antibiotic resistance, the expression of several virulence factors as some extracellular enzymes, pyocyanin production and biofilm formation were also assessed. Apart from intrinsic resistance, the newly isolated strain P. aeruginosa PM1012 presented an antibiotic susceptibility profile with a low resistance rate limited to meropenem and intermediate to ceftazidime and aztreonam. Protease, lipase and gelatinase secretion was detected. Strong pyocyanin production was observed in the optimal range of growth conditions. An excellent biofilm-forming capacity was manifested. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Inula salicina L.: Insights into Its Polyphenolic Constituents and Biological Activity.

Author

Ivanova, Viktoria, Nedialkov, Paraskev, Dimitrova, Petya, Paunova-Krasteva, Tsvetelina, and Trendafilova, Antoaneta

Subjects
HYDROXYBENZOIC acid, CHLOROGENIC acid, GENTIAN violet, NUCLEAR magnetic resonance spectroscopy, PLANT extracts, HYDROXYCINNAMIC acids
Abstract

In this study, UHPLC-HRMS analysis of the defatted methanol extract obtained from Inula salicina L. led to the identification of 58 compounds—hydroxycinnamic and hydroxybenzoic acids and their glycosides, acylquinic and caffeoylhexaric acids, and flavonoids and their glycosides. In addition, a new natural compound, N-(8-methylnepetin)-3-hydroxypiperidin-2-one was isolated and its structure was elucidated by NMR spectroscopy. The presence of a flavoalkaloid in genus Inula is described now for the first time. Chlorogenic acid was the main compound followed by 3,5-, 1,5- and 4,5-dicaffeoylquinic acids. The methanol extract was studied for its antioxidant potential by DPPH, ABTS, and FRAP assays and sun protective properties. In addition, a study was conducted to assess the effectiveness of the tested extract in inhibiting biofilm formation by Gram-positive and Gram-negative strains. Results from crystal violet tests revealed a notable decrease in biofilm mass due to the extract. The anti-biofilm efficacy was confirmed through the observation of the biofilm viability by live/dead staining. The obtained results showed that this plant extract could be used in the development of cosmetic products with antibacterial and sun protection properties. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Pathogenic Potential of Opportunistic Gram-Negative Bacteria Isolated from the Cloacal Microbiota of Free-Living Reptile Hosts Originating from Bulgaria.

Author

Lazarkevich, Irina, Engibarov, Stephan, Mitova, Simona, Popova, Steliyana, Vacheva, Emiliya, Stanchev, Nikola, Eneva, Rumyana, Gocheva, Yana, Lalovska, Iva, Paunova-Krasteva, Tsvetelina, Ilieva, Yana, and Najdenski, Hristo

Subjects
GRAM-negative bacteria, CAPTIVE wild animals, INTRODUCED species, HERPETOFAUNA, TURTLES, LIZARDS, BACTERIA
Abstract

Reptiles are known to be asymptomatic carriers of various zoonotic pathogens. A number of Gram-negative opportunistic commensals are causative agents of bacterial infections in immunocompromised or stressed hosts and are disseminated by reptiles, whose epidemiological role should not be neglected. Since most studies have focused on exotic species, in captivity or as pet animals, the role of wild populations as a potential source of pathogens still remains understudied. In the present study, we isolated a variety of Gram-negative bacteria from the cloacal microbiota of free-living lizard and tortoise hosts (Reptilia: Sauria and Testudines) from the Bulgarian herpetofauna. We evaluated their pathogenic potential according to their antibiotic susceptibility patterns, biofilm-forming capacity, and extracellular production of some enzymes considered to play roles as virulence factors. To our knowledge, the phenotypic manifestation of virulence factors/enzymatic activity and biofilm formation in wild reptile microbiota has not yet been widely investigated. All isolates were found to be capable of forming biofilms to some extent and 29.6% of them could be categorized as strong producers. Two strains proved to be excellent producers. The majority of the isolated strains showed extracellular production of at least one exoenzyme. The most pronounced pathogenicity could be attributed to the newly isolated Pseudomonas aeruginosa strain due to its multiresistance, excellent biofilm formation, and expression of exoenzymes. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Figure 4 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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18. Figure 2 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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19. Figure 3 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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20. Figure 1 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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21. Figure 9 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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23. Supplementary material 1 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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24. Figure 8 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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25. Figure 7b from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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26. Figure 5 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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27. Figure 6 from: Teneva I, Belkinova D, Paunova-Krasteva T, Bardarov K, Moten D, Mladenov R, Dzhambazov B (2023) Polyphasic characterisation of Microcoleus autumnalis (Gomont, 1892) Strunecky, Komárek & J.R.Johansen, 2013 (Oscillatoriales, Cyanobacteria) using a metabolomic approach as a complementary tool. Biodiversity Data Journal 11: e100525. https://doi.org/10.3897/BDJ.11.e100525

Author

Teneva, Ivanka, primary, Belkinova, Detelina, additional, Paunova-Krasteva, Tsvetelina, additional, Bardarov, Krum, additional, Moten, Dzhemal, additional, Mladenov, Rumen, additional, and Dzhambazov, Balik, additional

Published
2023
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32. Bioactive Azadirachta indica and Melia azedarach leaves extracts with anti-SARS-CoV-2 and antibacterial activities

Author

Hemdan, Bahaa A., Mostafa, Ahmed, Elbatanony, Marwa M., El-Feky, Amal M., Paunova-Krasteva, Tsvetelina, Stoitsova, Stoyanka, El-Liethy, Mohamed Azab, El-Taweel, Gamila E., Abu Mraheil, Mobarak, and Justus Liebig University Giessen

Subjects
ddc:610
Abstract

The leaves of Azadirachta indica L. and Melia azedarach L., belonging to Meliaceae family, have been shown to have medicinal benefits and are extensively employed in traditional folk medicine. Herein, HPLC analysis of the ethyl acetate fraction of the total methanolic extract emphasized the enrichment of both A. indica L., and M. azedarach L. leaves extracts with phenolic and flavonoids composites, respectively. Besides, 4 limonoids and 2 flavonoids were isolated using column chromatography. By assessing the in vitro antiviral activities of both total leaves extracts against Severe Acute Respiratory Syndrome Corona virus 2 (SARS-CoV-2), it was found that A. indica L. and M. azedarach L. have robust anti-SARSCoV- 2 activities at low half-maximal inhibitory concentrations (IC50) of 8.451 and 6.922 μg/ mL, respectively. Due to the high safety of A. indica L. and M. azedarach L. extracts with half-maximal cytotoxic concentrations (CC50) of 446.2 and 351.4 μg/ml, respectively, both displayed extraordinary selectivity indices (SI>50). A. indica L. and M. azedarach L. leaves extracts could induce antibacterial activities against both Gram-negative and positive bacterial strains. The minimal inhibitory concentrations of A. indica L. and M. azedarach L. leaves extracts varied from 25 to 100 mg/mL within 30 min contact time towards the tested bacteria. Our findings confirm the broad-spectrum medicinal value of A. indica L. and M. azedarach L. leaves extracts. Finally, additional in vivo investigations are highly recommended to confirm the anti-COVID-19 and antimicrobial activities of both plant extracts.

Published
2023
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34. Hybrid Chitosan/CaO-Based Nanocomposites Doped with Plant Extracts from Azadirachta indica and Melia azedarach: Evaluation of Antibacterial and Antibiofilm Activities

Author

Paunova-Krasteva, Tsvetelina, primary, Hemdan, Bahaa A., additional, Dimitrova, Petya D., additional, Damyanova, Tsvetozara, additional, El-Feky, Amal M., additional, Elbatanony, Marwa M., additional, Stoitsova, Stoyanka, additional, El-Liethy, Mohamed Azab, additional, El-Taweel, Gamila E., additional, and El Nahrawy, Amany M., additional

Published
2022
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36. Bulgarian Medicinal Extracts as Natural Inhibitors with Antiviral and Antibacterial Activity

Author

Nikolova, Ivanka, primary, Paunova-Krasteva, Tsvetelina, additional, Petrova, Zdravka, additional, Grozdanov, Petar, additional, Nikolova, Nadya, additional, Tsonev, Georgi, additional, Triantafyllidis, Alexandros, additional, Andreev, Stoyan, additional, Trepechova, Madlena, additional, Milkova, Viktoria, additional, and Vilhelmova-Ilieva, Neli, additional

Published
2022
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42. Hybrid Chitosan/CaO-Based Nanocomposites Doped with Plant Extracts from Azadirachta indicaand Melia azedarach: Evaluation of Antibacterial and Antibiofilm Activities

Author

Paunova-Krasteva, Tsvetelina, Hemdan, Bahaa A., Dimitrova, Petya D., Damyanova, Tsvetozara, El-Feky, Amal M., Elbatanony, Marwa M., Stoitsova, Stoyanka, El-Liethy, Mohamed Azab, El-Taweel, Gamila E., and El Nahrawy, Amany M.

Abstract

This study examines substances from plant leaves of Azadirachta indicaand Melia azedarachextracted with methanol (80%) and then successively fractionated with increasing gradient polarity solvents. The methanol extract from the two plant leaves was selected to be incorporated with nanocomposites because of their high antimicrobial activities. HPLC analysis was performed for the determination of total phenolics and flavonoids. LC–ESI–MS positive ion acquisition mode revealed the presence of four main chemical classes: limonoids, triterpenes, fatty acids, and phenolics. Sol–gel processes were adapted to prepare CaO/chitosan composite loaded with the methanol extract of the two plant leaves, acting as innovative antibacterial agents. The fabricated nanocomposites were characterized by XRD, TEM, SEM, and FTIR methods. Minimal bactericidal concentrations (MBC) were established by agar plating using bacteria treated with MIC and at least 2 concentrations double higher than the MIC. Biofilm was cultivated in the presence of sub-MICs of the extracts and the nanocomposites, followed by quantification with the crystal violet assay. The examined chitosan–CaO-based hybrid nanocomposites loaded with the methanol fractions from the leaves of A. indicaand M. azedarachhad an excellent performance as biofilm inhibitors. This indicates their good potential for biomedical applications.

Published
2023
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45. Cell response of Antarctic strain Penicillium griseofulvum against low temperature stress.

Author

KRUMOVA, Ekaterina Ts., KOEVA, Ekaterina K., STOITSOVA, Stoyanka R., PAUNOVA-KRASTEVA, Tsvetelina S., STOYANCHEVA, Galina D., and ANGELOVA, Maria B.

Abstract

During the evolution organisms are subjected to the continuous impact of environmental factors. In recent years an increasing number of studies have focused on the physicochemical limits of life on Earth such as temperature, pressure, drought, salt content, pH, heavy metals, etc. Extreme environmental conditions disrupt the most important interactions that support the function and structure of biomolecules. For this reason, organisms inhabiting extreme habitats have recently become of particularly great interest. Although filamentous fungi are an important part of the polar ecosystem, information about their distribution and diversity, as well as their adaptation mechanisms, is insufficient. In the present study, the fungal strain Penicillium griseofulvum isolated from an Antarctic soil sample was used as a study model. The fungal cellular response against short term exposure to low temperature was observed. Our results clearly showed that short-term low temperature exposure caused oxidative stress in fungal cells and resulted in enhanced level of oxidative damaged proteins, accumulation of reserve carbohydrates and increased activity of the antioxidant enzyme defence. Ultrastructural changes in cell morphology were analysed. Different pattern of cell pathology provoked by the application of two stress temperatures was detected. Overall, this study aimed to observe the survival strategy of filamentous fungi in extremely cold habitats, and to acquire new knowledge about the relationship between low temperature and oxidative stress. [ABSTRACT FROM AUTHOR]

Published
2022

47. Plastic Degradation by Extremophilic Microbial Communities Isolated from Bulgaria and Russia.

Author

Atanasova, Nikolina, Paunova-Krasteva, Tsvetelina, Stoitsova, Stoyanka, Kambourova, Margarita, Shapagin, Alexey, Matveev, Vladimir, Provotorova, Ekaterina, Elcheninov, Alexander, Sokolov, Tatyana, and Bonch-Osmolovskaya, Elizaveta

Subjects
MICROBIAL communities, LOW density polyethylene, HOT springs, POLYVINYL alcohol, PLASTIC analysis (Engineering), THERMOPHILIC microorganisms, SYNTHETIC fibers, PLASTICS
Abstract

This work reports the potential impact of extremophiles in resolving one of the biggest contemporary ecological problem - accumulation of huge amounts of plastic pollutants. Lye (C1) and water mud (C2) from Atanasovsko ezero, Bulgarian salterns were enriched for 2 weeks in a mineral salt medium provided with four synthetic plastics, Polycaprolactone (PCL), Polyvinyl alcohol (PVA), Polystyrene (PS), and Polypropylene (PP). Esterase activity was established for C1 on PVA and for C2 - on PCL and PVA. Scanning electron microscopy analysis of the plastics showed most explicit alterations on PCL surface. While the presence of C1 in the culture medium caused damage of the plastic surface, C2 interacted with it directly by forming a biofilm in surface breaks. Metagenomic analysis of C2, control and C2 with PCL revealed lower phylogenetic diversity in the presence of PCL and sharp rise of Gammaproteobacteria 16S rRNA sequences. The flourishing of the family Halomonadaceae was accompanied by a strong domination of the genus Halomonas, suggesting its active participation in PCL degradation. Thermophilic microorganisms in samples from Kamchatka hot springs were enriched in a medium with high- and low-density polyethylene in anaerobic conditions, at 78oC. Degradation of polyethylene after incubation was monitored by SEM. Results of 16S rRNA genes profiling compared with control variants revealed a domination of bacteria of phylum Dictyoglomi and family Thermoanaerobacteraceae in anaerobic thermophilic Kamchatka enrichments in the presence of polyethylene. These results indicate the possibility of thermophilic anaerobes to degrade the two types of polyethylene. [ABSTRACT FROM AUTHOR]

Published
2021

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