Publications by authors named "Darya V Poshvina"
The escalating threat of multidrug-resistant pathogens necessitates innovative approaches to combat infectious diseases. In this study, we examined peptides R23F*, V31K*, and R44K*, which were engineered to include an amyloidogenic fragment sourced from the S1 protein of , along with one or two cell-penetrating peptide (CPP) components. We assessed the antimicrobial efficacy of these peptides in a liquid medium against various strains of both Gram-positive bacteria, including (209P and 129B strains), MRSA (SA 180 and ATCC 43300 strains), and (strain IP 5832), and Gram-negative bacteria such as (ATCC 28753 and 2943 strains) and (MG1655 and K12 strains).
View Article and Find Full Text PDFAntibiotic resistance is a significant and pressing issue in the medical field, as numerous strains of infectious bacteria have become resistant to commonly prescribed antibiotics. is a bacterium that poses a grave threat, as it is responsible for a large number of nosocomial infections and has high mortality rates worldwide. Gausemycin A is a new lipoglycopeptide antibiotic that has considerable efficacy against multidrug-resistant strains.
View Article and Find Full Text PDFPesticides are widely used in agriculture as a pest control strategy. Despite the benefits of pesticides on crop yields, the persistence of chemical residues in soil has an unintended impact on non-targeted microorganisms. In the present study, we evaluated the potential adverse effects of a mixture of fungicides (difenoconazole, epoxiconazole, and kresoxim-methyl) on soil fungal and bacterial communities, as well as the manifestation of wheat diseases.
View Article and Find Full Text PDFThe dimorphic fungus is one of the most important opportunistic pathogens for humankind. The use of fungicides against could be associated with sub-inhibitory effects, which are referred to as fungal stress responses and are undesirable for the host. In this work, we investigated the antifungal action of 2,4-diacetylphloroglucinol (2,4-DAPG) against ATCC 10231 with a focus on their biofilm-forming ability.
View Article and Find Full Text PDFArticle Synopsis
- Gausemycin A is a new antibiotic that works well against some tough bacteria, but scientists haven't studied how bacteria can become resistant to it yet.
- They created a new strain called 5812R that is 80 times more resistant to gausemycin A and also resistant to several other antibiotics.
- Testing on 5812R showed it has changes in its genes that help it resist drugs, and it grows differently, making smaller and slower colonies than regular bacteria.
Bacterial intercellular communication mediated by small diffusible molecules, known as quorum sensing (QS), is a common mechanism for regulating bacterial colonisation strategies and survival. Influence on QS by plant-derived molecules is proposed as a strategy for combating phytopathogens by modulating their virulence. This work builds upon other studies that have revealed plant-derived QS inhibitors extracted from oak bark (Quercus sp.
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- * Research utilizing atomic force microscopy revealed that 2,4-DAPG causes observable damage to the outer membranes of bacteria and leads to intracellular leakage over time.
- * 2,4-DAPG's ability to inhibit metabolic activity suggests it alters bacterial behaviors like quorum-sensing, with certain concentrations decreasing biosynthesis of acyl-homoserine lactones without killing the cells outright.