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Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik

The structure of an integrated internet marketing complex, based on the marketing-mix concept

100%

Vynogradova O., Drokina N.

Acta Scientiarum Polonorum. Oeconomia

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2020

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tom 19

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nr 3

2

Synergy between market orientation and knowledge management in building competitive advantage of trading companies

100%

Soniewicki M.

Marketing i Rynek

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2016

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tom 23

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nr 01

3

Synergistic antibacterial effect of phenolic acids against Escherichia coli

100%

Synowiec A., Zyla K., Gniewosz M.

Zeszyty Problemowe Postępów Nauk Rolniczych

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2019

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tom 598

4

Agricultural land use and population growth in Nigeria. The need for synergy for a sustainable agricultural production

86%

Akpan S. B., Ebong V. O.

Journal of Agribusiness and Rural Development

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2021

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tom 3[61]

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Ergosterol biosynthesis inhibition: a target for antifungal agents

86%

Barrett-Bee K., Dixon G.

Acta Biochimica Polonica

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1995

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tom 42

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nr 4

The isoprenoid sterols play a crucial role in the viability of all fungi; those unable to synthesise ergosterol because of inhibition, growth conditions or mutation must take it up from the environment. A range of compound types have been discovered which interfere with the biosynthetic pathway from acetate to ergosterol and these compounds have antifungal actions. Inhibition of several of the steps has yielded agents which have been used with great success as medical and agrochemical agents. The most important biosynthetic steps that have been exploited are inhibition of squalene epoxidase, (the allylamines and tolnaftate) C14 demethylation (the azoles), A7,8 isomerase and A14 reductase which are inhibited by the morpholines. Recent research has shown that inhibition of C24 methyltransferase and C4 demethylation also yield antifungal agents. Combination studies demonstrate that synergy between agents of different types can be measured. Fungicidal effects were observed when a combination of two fungistatic agents was used.

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Synergy between novel antimicrobials and conventional antibiotics or bacteriocins

72%

Wolska K. I., Grzes K., Kurek A.

Polish Journal of Microbiology

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2012

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tom 61

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nr 2

Due to the alarming spread of resistance to classic antimicrobial agents, innovative therapeutic methods to combat antibiotic-resistant bacterial pathogens are urgently required. This minireview examines the enhancement of antibiotic efficacy by their combination with new antimicrobials, such as plant-derived compounds, metal ions and nanoparticles and bacteriophage lytic enzymes. The mechanisms of the observed synergy are also described. The promising results of basic research indicate that in future, combined therapy may be applied in human and veterinary medicine, agriculture and the food industry to combat bacterial pathogens.

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Changes in erythrocyte membrane permeability induced by verapamil, chlorpromazine, and their combinations with amphotericin B

72%

Knopik-Skrocka A., Bielawski J., Chowanski S., Walkowiak P.

Biological Letters

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2011

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tom 48

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nr 2

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Synergistyczne interakcje wystepujace pomiedzy polisacharydami w ich mieszaninach

58%

Gustaw W., Mleko S., Glibowski P.

Żywność Nauka Technologia Jakość

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2001

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tom 08

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nr 3

5-15

Celem pracy było przedstawienie dotychczasowej wiedzy o synergistycznych interakcjach zachodzących pomiędzy karagenem lub gumą ksantanową, a różnymi rodzajami galaktomannanów. Przedstawiono różne teorie opisujące ww. oddziaływania, a także czynniki wpływające na intensyfikację oddziaływań pomiędzy tymi polisacharydami.

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Antimicrobial activity of essential oil from Oliveria decumbens and its synergy with vancomycin against Staphylococcus aureus

58%

Mahboubi M., Mohammadi-Yeganeh S., Bokaee S., Dehdashti H., Feizabadi M. M.

Herba Polonica

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2007

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tom 53

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nr 4

Oliveria decumbens Vent (Umbelliferae) is a shrub commonly found in the South-East of Iran. Its aerial section is extensively used in herbal medicine. The Disk Diffusion Test and Microbroth Dilution Assay were used to determine the antimicrobial activity of the essential oil from Oliveria decumbens Vent against Staphylococcus aureus. To detect synergy, vancomycin was added to Mueller-Hinton agar at sub-inhibitory concentrations and the inhibitory zones were recorded in millimeters. The main components of oil were thymol (22%), carvacrol (22%) and p-cymene (19%). The O. decumbens oil exhibited strong antistaphylococcal activity (18.0±0.86). Carvacrol was considerably more effective (29.8±1.5) than thymol (17.2±1.13) and p-cymene (0.0±0.0) against Staphylococcus aureus. The oil presented strong synergism with vancomycin (24.9±0.75 vs. 19.3±0.54, p<0.001). However, further studies are required to evaluate its in vivo efficacy.

Ograniczanie wyników

The structure of an integrated internet marketing complex, based on the marketing-mix concept

Synergy between market orientation and knowledge management in building competitive advantage of trading companies

Synergistic antibacterial effect of phenolic acids against Escherichia coli

Agricultural land use and population growth in Nigeria. The need for synergy for a sustainable agricultural production

Ergosterol biosynthesis inhibition: a target for antifungal agents

Synergy between novel antimicrobials and conventional antibiotics or bacteriocins

Changes in erythrocyte membrane permeability induced by verapamil, chlorpromazine, and their combinations with amphotericin B

Synergistyczne interakcje wystepujace pomiedzy polisacharydami w ich mieszaninach

Antimicrobial activity of essential oil from Oliveria decumbens and its synergy with vancomycin against Staphylococcus aureus