This page uses cookies
Due to the settings of your browser and in order to facilitate the functioning of the umcs.pl webpage, the cookies have been installed. By continuing to use this webpage, you accept their usage. You can change this in the settings of you browser.
poniedziałek-piątek godz. 9-10
Rektorat, XV piętro, p. 1505
tel. + 48 (81) 537 52 05
e-mail: prorektor.nauka@umcs.pl
Ostatnie publikacje:
[1] A. Zdybicka-Barabas, S. Staczek, B. Pawlikowska-Pawlega, P. Mak, R. Luchowski, K. Skrzypiec, E. Mendyk, J. Wydrych, W.I. Gruszecki, M. Cytrynska, Studies on the interactions of neutral Galleria mellonella cecropin D with living bacterial cells, Amino Acids, 51 (2019) 175-191.
[2] J. Widomska, R. Welc, W.I. Gruszecki, The effect of carotenoids on the concentration of singlet oxygen in lipid membranes, Bba-Biomembranes, 1861 (2019) 845-851.
[3] D. Tchorzewska, R. Luchowski, W.I. Gruszecki, K. Winiarczyk, Comparative studies of live tapetum cells in sterile garlic (Allium sativum) and fertile leek (Allium ampeloprasum) using the fluorescence lifetime imaging analytical method, South African Journal of Botany, 117 (2018) 222-231.
[4] A. Plazinska, W. Plazinski, R. Luchowski, A. Wnorowski, W. Grudzinski, W.I. Gruszecki, Ligand-induced action of the W286(6.48) rotamer toggle switch in the beta(2)-adrenergic receptor, Physical Chemistry Chemical Physics, 20 (2018) 581-594.
[5] B. Pawlikowska-Pawlega, J. Kapral, A. Gawron, A. Stochmal, J. Zuchowski, L. Pecio, R. Luchowski, W. Grudzinski, W.I. Gruszecki, Interaction of a quercetin derivative - lensoside Abeta with liposomal membranes, Biochim. Biophys. Acta, 1860 (2018) 292-299.
[6] E. Niewiadomska, K. Bruckner, M. Mulisch, J. Kruk, A. Orzechowska, M. Pilarska, R. Luchowski, W.I. Gruszecki, K. Krupinska, Lack of tocopherols influences the PSII antenna and the functioning of photosystems under low light, J Plant Physiol, 223 (2018) 57-64.
[7] A. Matwijczuk, E. Janik, R. Luchowski, A. Niewiadomy, W.I. Gruszecki, M. Gagos, Spectroscopic studies of the molecular organization of 4-([1,2,4] triazolo [4,3-a] pyridin-3-yl)-6-methylbenzene-1,3-diol in selected solvents, J Lumin, 194 (2018) 208-218.
[8] W. Grudzinski, M. Piet, R. Luchowski, E. Reszczynska, R. Welc, R. Paduch, W.I. Gruszecki, Different molecular organization of two carotenoids, lutein and zeaxanthin, in human colon epithelial cells and colon adenocarcinoma cells, Spectrochim Acta A, 188 (2018) 57-63.
[9] E. Grela, M. Wieczor, R. Luchowski, J. Zielinska, A. Barzycka, W. Grudzinski, K. Nowak, P. Tarkowski, J. Czub, W.I. Gruszecki, Mechanism of Binding of Antifungal Antibiotic Amphotericin B to Lipid Membranes: An Insight from Combined Single-Membrane Imaging, Microspectroscopy, and Molecular Dynamics, Mol Pharmaceut, 15 (2018) 4202-4213.
[10] E. Grela, M. Piet, R. Luchowski, W. Grudzinski, R. Paduch, W.I. Gruszecki, Imaging of human cells exposed to an antifungal antibiotic amphotericin B reveals the mechanisms associated with the drug toxicity and cell defence, Sci Rep-Uk, 8 (2018).
[11] A. Plazinska, W. Plazinski, R. Luchowski, A. Wnorowski, W. Grudzinski, W.I. Gruszecki, Ligand-induced action of the W286(6.48) rotamer toggle switch in the beta2-adrenergic receptor, Phys. Chem. Chem. Phys., 20 (2017) 581-594.
[12] E. Janik, J. Bednarska, M. Zubik, R. Luchowski, R. Mazur, K. Sowinski, W. Grudzinski, M. Garstka, W.I. Gruszecki, A chloroplast "wake up" mechanism: Illumination with weak light activates the photosynthetic antenna function in dark-adapted plants, J Plant Physiol, 210 (2017) 1-8.
[13] E. Janik, J. Bednarska, K. Sowinski, R. Luchowski, M. Zubik, W. Grudzinski, W.I. Gruszecki, Light-induced formation of dimeric LHCII, Photosynth. Res., 132 (2017) 265-276.
[14] W. Grudzinski, L. Nierzwicki, R. Welc, E. Reszczynska, R. Luchowski, J. Czub, W.I. Gruszecki, Localization and Orientation of Xanthophylls in a Lipid Bilayer, Sci. Rep., 7 (2017) 9619.
[15] R. Welc, R. Luchowski, W. Grudzinski, M. Puzio, K. Sowinski, W.I. Gruszecki, A Key Role of Xanthophylls That Are Not Embedded in Proteins in Regulation of the Photosynthetic Antenna Function in Plants, Revealed by Monomolecular Layer Studies, J Phys Chem B, 120 (2016) 13056-13064.
[16] K. Tutaj, R. Szlazak, K. Szalapata, J. Starzyk, R. Luchowski, W. Grudzinski, M. Osinska-Jaroszuk, A. Jarosz-Wilkolazka, A. Szuster-Ciesielska, W.I. Gruszecki, Amphotericin B-silver hybrid nanoparticles: synthesis, properties and antifungal activity, Nanomed-Nanotechnol, 12 (2016) 1095-1103.
[17] S. Santabarbara, M. Zubik, W. Remelli, G. Zucchelli, W.I. Gruszecki, Two wavelength-dependent mechanisms of sensitisation of light-induced quenching in the isolated light-harvesting complex II, Febs Lett, 590 (2016) 2549-2557.
[18] M. Palusinska-Szysz, A. Zdybicka-Barabas, E. Reszczynska, R. Luchowski, M. Kania, N. Gisch, F. Waldow, P. Mak, W. Danikiewicz, W.I. Gruszecki, M. Cytrynska, The lipid composition of Legionella dumoffii membrane modulates the interaction with Galleria mellonella apolipophorin III, Bba-Mol Cell Biol L, 1861 (2016) 617-629.
[19] A. Nawrocka, M. Szymanska-Chargot, A. Mis, R. Kowalski, W.I. Gruszecki, Raman studies of gluten proteins aggregation induced by dietary fibres, Food Chem, 194 (2016) 86-94.
[20] E. Janik, J. Bednarska, M. Zubik, K. Sowinski, R. Luchowski, W. Grudzinski, D. Matosiuk, W.I. Gruszecki, The xanthophyll cycle pigments, violaxanthin and zeaxanthin, modulate molecular organization of the photosynthetic antenna complex LHCII, Arch Biochem Biophys, 592 (2016) 1-9.
[21] W. Grudzinski, J. Sagan, R. Welc, R. Luchowski, W.I. Gruszecki, Molecular organization, localization and orientation of antifungal antibiotic amphotericin B in a single lipid bilayer, Sci Rep-Uk, 6 (2016).
[22] W. Grudzinski, I. Krzeminska, R. Luchowski, A. Nosalewicz, W.I. Gruszecki, Strong-light-induced yellowing of green microalgae Chlorella: A study on molecular mechanisms of the acclimation response, Algal Res, 16 (2016) 245-254.
[23] W. Grudzinski, E. Janik, J. Bednarska, R. Welc, M. Zubik, K. Sowinski, R. Luchowski, W.I. Gruszecki, Light-Driven Reconfiguration of a Xanthophyll Violaxanthin in the Photosynthetic Pigment-Protein Complex LHCII: A Resonance Raman Study, J Phys Chem B, 120 (2016) 4373-4382.
[24] A. Zdybicka-Barabas, B. Pawlikowska-Pawlega, S. Staczek, A. Sowa-Jasilek, W.I. Gruszecki, K. Skrzypiec, E. Mendyk, P. Mak, M. Cytrynska, Interactions of Galleria mellonella cecropin D-like peptide with bacterial cells, Amino Acids, 47 (2015) 1645-1645.
[25] K. Tutaj, R. Szlazak, J. Starzyk, P. Wasko, W. Grudzinski, W.I. Gruszecki, R. Luchowski, The orientation of the transition dipole moments of a polyene antibiotic Amphotericin B under UV-VIS studies, J Photoch Photobio B, 151 (2015) 83-88.
[26] E. Reszczynska, R. Welc, W. Grudzinski, K. Trebacz, W.I. Gruszecki, Carotenoid binding to proteins: Modeling pigment transport to lipid membranes, Arch Biochem Biophys, 584 (2015) 125-133.
[27] M. Palusinska-Szysz, A. Zdybicka-Barabas, M. Cytrynska, S. Wdowiak-Wrobel, E. Chmiel, W.I. Gruszecki, Analysis of cell surface alterations in Legionella pneumophila cells treated with human apolipoprotein E, Pathog Dis, 73 (2015).
[28] A. Nawrocka, M. Szymanska-Chargot, A. Mis, A.A. Ptaszynska, R. Kowalski, P. Wasko, W.I. Gruszecki, Influence of dietary fibre on gluten proteins structure - a study on model flour with application of FT-Raman spectroscopy, J Raman Spectrosc, 46 (2015) 309-316.
[29] K. Kupisz, K. Trebacz, W.I. Gruszecki, Menthol-induced action potentials in Conocephalum conicum as a result of unspecific interactions between menthol and the lipid phase of the plasma membrane, Physiol Plantarum, 154 (2015) 349-357.
[30] E. Janik, J. Bednarska, M. Zubik, K. Sowinski, R. Luchowski, W. Grudzinski, W.I. Gruszecki, Is It Beneficial for the Major Photosynthetic Antenna Complex of Plants To Form Trimers?, J Phys Chem B, 119 (2015) 8501-8508.
[31] W.I. Gruszecki, R. Luchowski, M. Zubik, W. Grudzinski, Photothermal Microscopy: Imaging of Energy Dissipation From Photosynthetic Complexes, Anal Chem, 87 (2015) 9572-9575.
[32] W.I. Gruszecki, A.J. Kulik, E. Janik, J. Bednarska, R. Luchowski, W. Grudzinski, G. Dietler, Nanoscale resolution in infrared imaging of protein-containing lipid membranes, Nanoscale, 7 (2015) 14659-14662.
[33] W.I. Gruszecki, Plant Photosystem Ii as an Example of a Natural Photovoltaic Device, Wiley Ser Electrocat, (2015) 121-131.