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14 results on '"Maximova, Ksenia"'

1. Investigation of laser wavelength effect on the ablation of enamel and dentin using femtosecond laser pulses.

Author

Rapp, Ludovic, Madden, Steve, Brand, Julia, Maximova, Ksenia, Walsh, Laurence J., Spallek, Heiko, Zuaiter, Omar, Habeb, Alaa, Hirst, Timothy R., and Rode, Andrei V.

Subjects
AMELOBLASTS, FEMTOSECOND pulses, DENTIN, DENTAL pulp, DENTAL enamel, INFRARED lasers, WAVELENGTHS, FEMTOSECOND lasers
Abstract

We investigated the effect of femtosecond (fs) laser ablation of enamel and dentin for different pulse wavelengths: infrared (1030 nm), green (515 nm), and ultra-violet (343 nm) and for different pulse separations to determine the optimal irradiation conditions for the precise removal of dental hard tissues with the absence of structural and compositional damage. The ablation rates and efficiencies were established for all three laser wavelengths for both enamel and dentin at room temperature without using any irrigation or cooling system, and the surfaces were assessed with optical and scanning electron microscopy, optical profilometry, and Raman spectroscopy. We demonstrated that 515 nm fs irradiation provides the highest rate and efficiency for ablation, followed by infrared. Finally, we explored the temperature variations inside the dental pulp during the laser procedures for all three wavelengths and showed that the maximum increase at the optimum conditions for both infrared and green irradiations was 5.5 °C, within the acceptable limit of temperature increase during conventional dental treatments. Ultra-violet irradiation significantly increased the internal temperature of the teeth, well above the acceptable limit, and caused severe damage to tooth structures. Thus, ultra-violet is not a compatible laser wavelength for femtosecond teeth ablation. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Encapsulation and adhesion of nanoparticles as a potential biomarker for TNBC cells metastatic propensity.

Author

Merkher, Yulia, Kontareva, Elizaveta, Bogdan, Elizaveta, Achkasov, Konstantin, Maximova, Ksenia, Grolman, Joshua M., and Leonov, Sergey

Subjects
METASTASIS, PROGNOSIS, NANOPARTICLES, CYTOSKELETON, CANCER-related mortality, CELL adhesion
Abstract

Metastasis is the main cause of cancer-related mortality; therefore, the ability to predict its propensity can remarkably affect survival rate. Metastasis development is predicted nowadays by lymph-node status, tumor size, histopathology, and genetic testing. However, all these methods may have inaccuracies, and some require weeks to complete. Identifying novel prognostic markers will open an essential source for risk prediction, possibly guiding to elevated patient treatment by personalized strategies. Cancer cell invasion is a critical step in metastasis. The cytoskeletal mechanisms used by metastatic cells for the invasion process are very similar to the utilization of actin cytoskeleton in the endocytosis process. In the current study, the adhesion and encapsulation efficiency of low-cost carboxylate-modified fluorescent nanoparticles by breast cancer cells with high (HM) and low metastatic potential (LM) have been evaluated; benign cells were used as control. Using high-content fluorescence imaging and analysis, we have revealed (within a short time of 1 h), that efficiency of nanoparticles adherence and encapsulation is sufficiently higher in HM cells compared to LM cells, while benign cells are not encapsulating or adhering the particles during experiment time at all. We have utilized custom-made automatic image analysis algorithms to find quantitative co-localization (Pearson's coefficients) of the nanoparticles with the imaged cells. The method proposed here is straightforward; it does not require especial equipment or expensive materials nor complicated cell manipulations, it may be potentially applicable for various cells, including patient-derived cells. Effortless and quantitative determination of the metastatic likelihood has the potential to be performed using patient-specific biopsy/surgery sample, which will directly influence the choice of protocols for cancer patient's treatment and, as a result, increase their life expectancy. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Enzymatic activity of human immunodeficiency virus type 1 protease in crowded solutions.

Author

Maximova, Ksenia, Wojtczak, Jakub, and Trylska, Joanna

Subjects
HIV, ETHYLENE glycol, KINETIC resolution, MACROMOLECULES, PROTEOLYTIC enzymes, BINDING sites, DIFFUSION
Abstract

Cells are crowded with various macromolecules and metabolites, which affect biochemical reactions in many ways, from the diffusion of substrates to catalytic activities of enzymes. We herein investigated the proteolytic activity of the human immunodeficiency virus type 1 protease (HIV-1 PR) under non-crowded and crowded conditions. The latter environment was mimicked with various (poly)ethylene glycol molecules as crowding agents. We found that these crowding agents affect the kinetic parameters of the HIV-1 PR catalyzed reaction by increasing the Michaelis–Menten constant and decreasing the maximum velocity. The influence of crowding was concentration dependent. We explain this effect by the dynamics of the HIV-1 PR flexible flaps that cover the peptide substrate binding site and are crucial for enzyme activity, and by a possibly slower substrate–enzyme association time in the crowded conditions. [ABSTRACT FROM AUTHOR]

Published
2019
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5. Does a Conjugation Site Affect Transport of Vitamin B12–Peptide Nucleic Acid Conjugates into Bacterial Cells?

Author

Wierzba, Aleksandra J., Maximova, Ksenia, Wincenciuk, Aleksandra, Równicki, Marcin, Wojciechowska, Monika, Nexø, Ebba, Trylska, Joanna, and Gryko, Dorota

Subjects
VITAMIN B12, PEPTIDE nucleic acids, GRAM-negative bacteria, BACTERIAL cells, OLIGONUCLEOTIDES
Abstract

Gram‐negative bacteria develop specific systems for the uptake of scarce nutrients, including vitamin B12. These uptake pathways may be utilized for the delivery of biologically relevant molecules into cells. Indeed, it was recently reported that vitamin B12 transported an antisense peptide nucleic acid (PNA) into Escherichia coli and Salmonella Typhimurium cells. The present studies indicate that the conjugation site of PNA to vitamin B12 has an impact on PNA transport into bacterial cells. Toward this end, a specifically designed PNA oligomer has been tethered at various positions of vitamin B12 (central Co, R5′‐OH, c and e amide chains, meso position, and at the hydroxy group of cobinamide) by using known or newly developed methodologies and tested for the uptake of the synthesized conjugates by E. coli. Compounds in which the PNA oligonucleotide was anchored at the R5′‐OH position were transported more efficiently than that of other compounds tethered at the peripheral positions around the corrin ring. Of importance is the fact that, contrary to mammalian organisms, E. coli also takes up cobinamide, which is an incomplete corrinoid. This selectivity opens up ways to fight bacterial infections. Open up! Gram‐negative bacteria develop specific systems for the uptake of scarce nutrients, for example, vitamin B12, which may be utilized for the delivery of biologically relevant molecules into cells (see figure). The conjugation site of a peptide nucleic acid (PNA) to vitamin B12 impacts on PNA transport into bacterial cells. Contrary to that in mammals, Escherichia coli also takes up cobinamide, which is an incomplete corrinoid; this selectivity opens up a way to fight bacterial infections. [ABSTRACT FROM AUTHOR]

Published
2018
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6. Silk patterns made by direct femtosecond laser writing.

Author

Maximova, Ksenia, Xuewen Wang, Balčytis, Armandas, Linpeng Fan, Jingliang Li, and Juodkazis, Saulius

Subjects
SILK fibroin, FEMTOSECOND lasers, AMORPHOUS substances, PHOTORESISTS, CRYSTALLINITY
Abstract

Silk patterns in a film of amorphous water-soluble fibroin are created by tailored exposure to femtosecond-laser pulses (1030 nm/230 fs) without the use of photoinitiators. This shows that amorphous silk can be used as a negative tone photoresist. It is also shown that water insoluble crystalline silk films can be precisely ablated from a glass substrate achieving the patterns of crystalline silk gratings on a glass substrate. Bio-compatible/degradable silk can be laser structured to achieve conformational transformations as demonstrated by infrared spectroscopy. [ABSTRACT FROM AUTHOR]

Published
2016
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11. A Practical Protocol for the Conjugation of Various Amino Acids to Protoporphyrin IX.

Author

Maximova, Ksenia, Pisarek, Sabina, and Gryko, Dorota

Subjects
AMINO acids, PROTOPORPHYRINOGEN oxidase, LEUCINE, VALINE, LYSINE, GLUTAMIC acid
Abstract

An effective and reliable method was developed for the synthesis of protoporphyrin IX-derived amides. The reaction of protoporphyrin IX with an amino acid [L-leucine, L-valine, L-lysine, Laspartic acid (Asp), L-glutamic acid (Glu), glycine, or 6-aminohexanoic acid] or a short peptide (Asp-Glu) as an amine counterpart in the presence of O-(benzotriazol-1-yl)-N,N,N',N'-tetramethyluronium hexafluorophosphate and 1H-1,2,3-benzotriazol-1-ol gave the desired diamides in excellent yields. [ABSTRACT FROM AUTHOR]

Published
2013
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