Pavlina Zelena scite author profile

Green synthesis of different nanoparticles using the plants aqueous extracts has several advantages over other methods due to the environmentally favorable nature of plants. moreover, such approach is also cost effective. This work describes the biosynthesis of silver nanoparticles (Ag-NPs) with the use of the aqueous extract of dry pericarps of hot chili peppers and cv. Carolina Reaper) with different levels of pungency and their antibacterial effect on the antibiotic resistant Pseudomonas aeruginosa. Phytochemical screening of pericarp tissues showed great distinction in contents of phenolic compounds and capsaicinoids as potential reducing agents wich correlated with total antiradical activity as analyzed by reduction of DPPH radicals. The biosynthesized Ag-NPs were characterized by UV-vis spectrophotometry and scanning electron microscopy (SEM). The average size of the nanoparticles in both samples was less than 25 nm. Іnitial concentration of both samples of Ag-NPs inhibited P. aeruginosa growth with equal efficiency.

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Ability of Microorganisms from Different Ecological Niches to Hydrolyze the Insoluble Proteins

Matseliukh¹,

Nidialkova²,

Varbanets³

et al. 2015

Mikrobiol. Z.

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Screening of α-L-Rhamnosidases and Peptidases among Actinobacterium and Bacilli

Varbanets¹,

Matseliuk²,

Гудзенко³

et al. 2016

Mikrobiol. Z.

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скринінг продуцентів пептидаз, а також a-L-рамнозидаз серед актинобактерій та бацил. Методи. Були використані біохімічні методи визначення a-L-рамнозидазної, еластазної, казеїнолітичної, фібринолітичної та колагеназної активностей. Результати. Внаслідок скринінгу, проведеного серед 31 штаму ак тинобактерій та 24 штамів бацил, не виявлено жодного штаму актинобактерій, здатного синтезувати ензим з еластазною активністю, але деякі актинобактерії виявилися активними продуцентами колагеназ. Що стосується бацил, то еластолітична активність була виявлена тільки в п ' яти досліджених штамах, але її рівень не представляє інтересу до подальших досліджень, у той час як фібринолітична активність двох штамів Bacillus subtilis 121 і 108 була досить високою (0,100 од/ мг і 0,092 од/мг білка відповідно). Висновки. Найбільш ефективними продуцентами колагенази і a-L-рамнозидази є штам актинобактерій 6/5, виділений з ризосфери кропиви, а пептидази з фібринолітичною активністю-B. subtilis 121 і 108. Ці шта ми можна вважати перспективними для подальших досліджень.

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Bacteriophages and their microbial hosts in terrestrial biotopes of Antarctica

et al. 2021

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Virus diversity in Antarctic biotopes remains understudied. Here, we describe bacteriophages isolated from terrestrial environments, provide data on their natural bacterial hosts and study phage-host systems. Six bacterial isolates (FCKU 539, FCKU 533, FCKU 534, FCKU 538, FCKU 542 and FCKU 540) were recovered and characterized. Isolated bacteria belonged to Pseudomonas genus (Pseudomonas sp., Pseudomonas fluorescens, Pseudomonas putida) with optimal cultivation temperatures of 16–28°C. These bacteria and previously described Bacillus subtilis FCKU 537 were used for analysing virus-host interactions. Six lytic phages were isolated and named P. fluorescens Antarctic virus 1 (PFAV1), P. fluorescens Antarctic virus 2 (PFAV2), P. fluorescens Antarctic virus 3 (PFAV3), P. putida Antarctic virus 4 (PPAV4), Pseudomonas sp. Antarctic virus 5 (PSAV5) and B. subtilis Antarctic virus 6 (BSAV6) in relation to their natural hosts. According to electron microscopy data, these phages belonged to Caudovirales order. Cross-inoculation demonstrated high specificity of all Antarctic phages, which infected only their initial hosts at moderate temperatures. PFAV2 and PFAV3 phages also infected laboratory Pseudomonas savastanoi and P. fluorescens isolates. This paper adds new data on the occurrence and diversity of viruses and their respective bacterial hosts in soil biotopes of Antarctica.

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Pavlina Zelena

New nanostructured apatite-type (Na+,Zn2+,CO32−)-doped calcium phosphates: Preparation, mechanical properties and antibacterial activity

Green synthesis of silver nanoparticles using aqueous extract of hot chili pepper fruits and its antimicrobial activity against Pseudomonas aeruginosa

Ability of Microorganisms from Different Ecological Niches to Hydrolyze the Insoluble Proteins

Screening of α-L-Rhamnosidases and Peptidases among Actinobacterium and Bacilli

Bacteriophages and their microbial hosts in terrestrial biotopes of Antarctica

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