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Publikacje

 

Publikacje prezentujące m.in. wyniki analiz przeprowadzonych w naszym laboratorium:

  • Joshi, N., Grewal, J., Stasiuk, R., Drewniak, Ł., Pranaw, K. (2024). Unveiling the secretome of Penicillium fuscoglaucum JAM-1 for efficient dual substrate degradation and waste valorization. Biomass Conversion and Biorefinery,1-12.
  • Ajijach, N., Fiodor, A., Kazimierczuk, K., Urbaniak, M., Enow, E., Stasiuk, R., Stępień, Ł., Dziewit, Ł., Pranaw, K. (2024). Pseudomonas protegens ML15 and Trichoderma konindiopsis Tr21 co-culture: A potent strategy for suppressing Fusarium cerealis infections in wheat through augmented antifungal metabolite production. Biological Control, 198.
  • Vaccaro, F., Passeri, I., Ajijah, N., Bettini, P., Courty, P. E., Dębiec-Andrzejewska, K., Joshi, N., Kowalewska, Ł., Stasiuk, R., Musiałowski, M., Pranaw, K., Mengoni, A. (2024). Genotype-by-genotype interkingdom cross-talk between symbiotic nitrogen-fixing Sinorhizobium meliloti strains and Trichoderma Microbiological Research, 285, 127768.
  • Krucoń, T., Ruszkowska, Z., Pilecka, W., Szych, A., Drewniak, Ł. (2023). Bioprospecting of the Antarctic Bacillus subtilis strain for potential application in leaching hydrocarbons and trace elements from contaminated environments based on functional and genomic analysis. Environmental Research, 227.
  • Wierzbicka, M., Bodzoń, K., Naziębło, A., Tarnowska, Z., Wróbel, M., Brzost, K., Panufnik-Mędrzycka, D. (2023). Reducing lead uptake by plants as a way to lead-free food. Ecotoxicology and Environmental Safety, 256.
  • Iwan, M., Gunthel, M., Kamiński, T., Franus, W., Drewniak, Ł. (2023). Biotransformation of coal fly ash with high carbon content; behavior and release patterns of coal fly ash constituents under the influence of allochthonous Pseudomonas stutzer Journal of Cleaner Production, 420.
  • Ajijah, N., Fiodor, A., Dziurzyński, M., Stasiuk, R., Pawłowska, J., Dziewit, Ł., Pranaw, K. (2023). Biocontrol potential of Pseudomonas protegens ML15 against Botrytis cinerea causing gray mold on postharvest tomato (Solanum lycopersicum cerasiforme). Frontiers in Plant Science, 14.
  • Zakrzewska, M. Z., Musiałowski, M., Rzepa, G., Goszcz, A., Stasiuk, R., Dębiec-Andrzejewska, K. (2023). Reduction of bioavailability and phytotoxicity effect of cadmium in soil by microbial-induced carbonate precipitation using metabolites of ureolytic bacterium Ochrobactrum POC9. Frontiers in Plant Science, 14.
  • Musiałowski, M., Kowalewska, Ł., Stasiuk, R., Krucoń, T., Dębiec-Andrzejewska, K. (2023). Metabolically versatile psychrotolerant bacterium Pseudomonas ANT_H12B as an efficient producer of siderophores and accompanying metabolites (SAM) useful for agricultural purposes. Research Square.
  • Wilamowska, A., Koblowska, M., Matlakowska, R. (2022). Postdiagenetic bacterial oxidation and dehydrogenation significantly change the properties and type of kerogen. Molecules, 27, 2408.
  • Daszczyńska, A., Krucoń, T., Stasiuk, R., Koblowska, M., Matlakowska, R. (2022). Lanthanide-dependent methanol metabolism of a Proteobacteria-dominated community in a light lanthanide-rich deep environment. International Journal of Molecular Sciences, 23(7), 3947.
  • Styczyński, M., Biegniewski, G., Decewicz, P., Rewerski, B., Dębiec-Andrzejewska, K., Dziewit, Ł. (2022). Application of psychrotolerant Antarctic bacteria and their metabolites as efficient plant growth-promoting agents. Frontiers in Bioengineering and Biotechnology.
  • Kucharski, D., Stasiuk, R., Drzewicz, P., Skowronek, A., Strzelecka, A., Mianowicz, K., Giebułtowicz, J. (2022). Fit-for-purpose assessment of QuEChERS LC-MS/MS methods for environmental monitoring of organotin compounds in the bottom sediments of the Odra River Estuary. Molecules, 27(15), 4847.
  • Rogowska, A., Pączkowski, C., Szakiel, A. (2022). Modulation of steroid and triterpenoid metabolism in Calendula officinalis plants and hairy root cultures exposed to cadmium stress. International Journal of Molecular Sciences, 23(10), 5640.
  • Stasiuk, R., Matlakowska, R. (2021). Sedimentary cobalt protoporphyrin as a potential precursor of prosthetic heme group for bacteria inhabiting fossil organic matter-rich shale rock. Biomolecules, 11(12), 1913.
  • Stasiuk, R., Krucoń, T., Matlakowska, R. (2021). Biosynthesis of tetrapyrrole cofactors by bacterial community inhabiting porphyrine-containing shale rock (Fore-Sudetic Monocline). Molecules, 26, 6746.
  • Stasiuk, R., Matlakowska, R. (2021). Postdiagenetic bacterial transformation of nickel and vanadyl sedimentary porphyrins of organic-rich shale rock (Fore-Sudetic Monocline, Poland). Frontiers in Microbiology.
  • Roszczenko-Jasińska, P., Krucoń, T., Stasiuk, R., Matlakowska, R. (2021). Occurrence of XoxF-type methanol dehydrogenases in bacteria inhabiting light lanthanide-rich shale rock. FEMS Microbiology Ecology.
  • Yang, Z., Liu, Z., Dąbrowska, M., Dębiec-Andrzejewska, K., Stasiuk, R., Yin, H., Drewniak, Ł. (2021). Biostimulation of sulfate-reducing bacteria used for treatment of hydrometallurgical waste by secondary metabolites of urea decomposition by Ochrobactrum POC9: From genome to microbiome analysis. Chemosphere, 131064.
  • Staicu, L., Wojtowicz, P., Pósfai, P., Pekker, M., Górecki, A., Jordan, F., Barton, L.L. (2020). PbS biomineralization using cysteine: Bacillus cereus and the sulfur rush. FEMS Microbiology Ecology, 96, fiaa151.
  • Yang, Z., Karczewska-Golec, J., Styczyński, M., Bajda, T., Drewniak, Ł. (2020). Characterization of Fe-based sediments received from chemical pre-treatment of hydrometallurgical waste leachate from the recycling of alkaline batteries. Journal of Hazardous Materials, 403, 123988.
  • Yang, Z., Uhrynowski, W., Jakusz, G., Retka, J., Karczewska-Golec, J., Dębiec-Andrzejewska, K., Rogulski, Z., Drewniak, Ł. (2020). Biochemical treatment of leachates from hydrometallurgical recycling of spent alkaline batteries. Hydrometallurgy, 191, 105223.
  • Dębiec-Andrzejewska, K., Krucoń, T., Piątkowska, K., Drewniak, Ł. (2020). Enhancing plant growth and arsenic uptake from soil using arsenite-oxidizing bacteria. Environmental Pollution, 264, 114692.
  • Styczyński, M., Rogowska, A., Gieczewska, K., Garstka, M., Szakiel, A., Dziewit, Ł. (2020). Genome-based insights into the production of carotenoids by Antarctic bacteria Planococcus ANT_H30 and Rhodococcus ANT_H53B. Molecules, 25, 4357.
  • Dębiec-Andrzejewska, K., Krucoń, T., Piątkowska, K., Drewniak, Ł. (2020). Enhancing plant growth and arsenic uptake from soil using arsenite-oxidizing bacteria. Environmental Pollution, 264, 114692.
  • Tuchowska, M., Rzepa, G., Dębiec-Andrzejewska, K., Drewniak, Ł., Bajda, T. (2019). Immobilization of arsenic compounds by bog iron ores. Desalination and Water Treatment, 157, 138-147.
  • Dyda, M., Pyzik, A., Wilkoń, E., Kwiatkowska-Kopka, B., Skłodowska, A. (2019). Bacterial and fungal diversity inside a medieval building constructed with sandstone plates and lime mortar as an example of microbial colonization of a nutrient-limited extreme environment (Wawel Royal Castle, Kraków, Poland). Microorganisms, 7(10), 416.
  • Skłodowska, A., Mielnicki, S., Drewniak, Ł. (2018). Raoultella SM1, a novel iron-reducing and uranium-precipitating strain. Chemosphere, 195, 722-726.
  • Pyzik, A., Ciężkowska, M., Krawczyk, P.S., Sobczak, A., Drewniak, Ł., Dziembowski, A., Lipiński, Ł. (2018). Comparative analysis of deep-sequenced methanogenic communities: Identification of microorganisms responsible for methane production. Microbial Cell Factories, 17, 197.
  • Dębiec, K., Rzepa, G., Bajda, T., Uhrynowski, W., Skłodowska, A., Krzysztoforski, J., Drewniak, Ł. (2018). Granulated bog iron ores as sorbents in passive (bio)remediation systems for arsenic removal. Frontiers in Chemistry, 6, 54.
  • Stasiuk, R., Włodarczyk, A., Karcz, P., Janas, M., Skłodowska, A., Matlakowska, R. (2017). Bacterial weathering of fossil organic matter and organic carbon mobilization from subterrestrial Kupferschiefer black shale: Long-term laboratory studies. Environmental Microbiology Reports, 9(4), 459-466.
  • Uhrynowski, W., Dębiec, K., Skłodowska, A., Drewniak, Ł. (2017). The role of dissimilatory arsenate-reducing bacteria in the biogeochemical cycle of arsenic based on physiological and functional analysis of Aeromonas O23A. Science of the Total Environment, 598, 680-689.
  • Dębiec, K., Krzysztoforski, J., Uhrynowski, W., Skłodowska, A., Drewniak, Ł. (2017). Kinetics of arsenite oxidation by Sinorhizobium M14 under changing environmental conditions. International Biodeterioration & Biodegradation, 119, 476-485.
  • Wojcieszak, M., Pyzik, A., Poszytek, K., Krawczyk, P.S., Sobczak, A., Lipiński, Ł., Roubinek, O., Palige, J., Skłodowska, A., Drewniak, Ł. (2017). Adaptation of methanogenic inocula to anaerobic digestion of maize silage. Frontiers in Microbiology, 8, 1881.
  • Uhrynowski, W., Dębiec, K., Skłodowska, A., Drewniak, Ł. (2017). The role of dissimilatory arsenate-reducing bacteria in the biogeochemical cycle of arsenic based on physiological and functional analysis of Aeromonas Science of the Total Environment, 598, 680-689.
  • Drewniak, Ł., Krawczyk, P.S., Mielnicki, S., Adamska, D., Sobczak, A., Lipiński, Ł., Bureć-Drewniak, W., Skłodowska, A. (2016). Physiological and metagenomic analyses of microbial mats involved in self-purification of mine waters contaminated with heavy metals. Frontiers in Microbiology, 7, 1252
  • Poszytek, K., Ciężkowska, M., Skłodowska, A., Drewniak, Ł. (2016). Microbial Consortium with High Cellulolytic Activity (MCHCA) for enhanced biogas production. Frontiers in Microbiology, 7, 324.
  • Włodarczyk, A., Stasiuk, R., Skłodowska, A., Matlakowska, R. (2015). Extracellular compounds produced by bacterial consortium promoting element mobilization from polymetallic Kupferschiefer black shale (Fore-Sudetic Monocline, Poland). Chemosphere, 122, 273-279.
  • Drewniak, Ł., Stasiuk, R., Uhrynowski, W., Skłodowska, A. (2015). Shewanella O23S as a driving agent of a system utilizing dissimilatory arsenate-reducing bacteria responsible for self-cleaning of water contaminated with arsenic. International Journal of Molecular Sciences, 16(7), 14409-14427.
  • Drewniak, Ł., Ciężkowska, M., Radlińska, M., Skłodowska, A. (2015). Construction of recombinant broad-host-range plasmids providing their bacterial hosts arsenic resistance and arsenite oxidation ability. Journal of Biotechnology, 196-197, 42-51.
  • Drewniak, Ł., Rajpert, L., Mantur, A., Skłodowska, A. (2014). Dissolution of arsenic minerals mediated by dissimilatory arsenate-reducing bacteria: Estimation of the physiological potential for arsenic mobilization. BioMed Research International, 2014, 841892.
  • Rewerski, B., Mielnicki, S., Bartosiewicz, I., Polkowska-Motrenko, H., Skłodowska, A. (2013). Uranium post-mining wastes as a potential reserve source of uranium for nuclear energy plants. Physicochemical Problems of Mineral Processing, 49(1), 495-512.
  • Drewniak, Ł., Dziewit, Ł., Ciężkowska, M., Gawor, J., Gromadka, R., Skłodowska, A. (2013). Structural and functional genomics of plasmid pSinA of Sinorhizobium M14 encoding genes for arsenite oxidation and arsenic resistance. Journal of Biotechnology, 164, 479-488.
  • Drewniak, Ł., Matlakowska, R., Rewerski, B., Skłodowska, A. (2010). Arsenic release from gold mine rocks mediated by the activity of indigenous bacteria. Hydrometallurgy, 104, 437-442.
  • Drewniak, Ł., Matlakowska, R., Skłodowska, A. (2009). Microbial impact on arsenic mobilization in Złoty Stok gold mine. Advanced Materials Research, 71-73, 121-124.
  • Drewniak, Ł., Matlakowska, R., Skłodowska, A. (2008). Arsenite and arsenate metabolism of Sinorhizobium M14 living in the extreme environment of the Złoty Stok gold mine. Geomicrobiology Journal, 25, 363-370.