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Publikacje

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

  • 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 var.cerasiforme). Frontiers in Plant Science Volume 14 – 2023 https://doi.org/10.3389/fpls.2023.1288408
  • Dąbski M., Badura I., M. Kycko, A. Grabarczyk, R.Matlakowska , JC. Otto. 2023. Development of limestone weathering rind in a proglacial environment of Hallstätter Glacier. Minerals 2023, 13, 530. DOI:10.3390/min13040530 https://www.mdpi.com/2075-163X/13/4/530
  • Zakrzewska, M. Z., Musialowski, M., Rzepa, G., Goszcz, A., Stasiuk, R., & Debiec-Andrzejewska, K. Reduction of bioavailability and phytotoxicity effect of cadmium in soil by microbial-induced carbonate precipitation using metabolites of ureolytic bacterium Ochrobactrum sp. POC9. Frontiers in Plant Science, 14, 2023 https://www.frontiersin.org/articles/10.3389/fpls.2023.1109467/abstract
  • Musialowski, M., Kowalewska, L., Stasiuk, R., Krucon, T., Debiec-Andrzejewska, K., 2023. Metabolically versatile psychrotolerant bacterium Pseudomonas sp. ANT_H12B is an efficient producer of siderophores and accompanying metabolites (SAM) useful for agricultural purposes. Research Square  https://doi.org/10.21203/rs.3.rs-2617055/v1
  • Wilamowska A.; Koblowksa M., Matlakowska R. (2022). Postdiagenetic bacterial oxidation and dehydrogenation significantly change the properties and type of kerogen. Molecules, 27,2408 doi.org. 10.3390 molecules27082408
  • 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 abnd Their Metabolites as Efficient Plant Growth Promoting Agents Front. Bioeng. Biotechnol. 10.3389/fbioe.2022.772891
  • 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, 269210 6746, 10.3390/molecules26216746
  • Stasiuk R., Matlakowska R. (2021).Postdiagenetic bacterial transformation of nickel and vanadyl sedimentary porphyrins of organic-rich shale rock       ( Fore-sudetic Monocline, Poland). Front. Microbiol. 10.3389/fmicb.2021.772007
  • 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, 10.1093/femsec/fiaa259·
  • Yang Z., Liu, Z., Dąbrowska M., Dębiec-Andrzejewska K., Stasiuk R., Yin H., & Drewniak L. (2021). Biostimulation of sulfate-reducing bacteria used for treatment of hydrometallurgical waste by secondary metabolites of urea decomposition by Ochrobactrum sp. POC9: From genome to microbiome analysis. Chemosphere, 131064.
  • Staicu L., Wojtowicz P., Mihaly Pósfai P. Pekker, Gorecki A., Jordan F. and Barton L.L. (2020). PbS biomineralization using cysteine:Bacillus cereus and the sulfur rush, FEMS Microbiology Ecology, 96, fiaa151
  • Yang Z., Karczewska-Golec J., Styczynski M., Bajda T., Drewniak L. (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., Debiec-Andrzejewska K., Rogulski Z., Drewniak L. (2020). Biochemical treatment of leachates from hydrometallurgical recycling of spent alkaline batteries. Hydrometallurgy 191: 105223.
  • Debiec-Andrzejewska K., Krucon T., Piatkowska K., Drewniak L. (2020). Enhancing the plants growth and arsenic uptake from soil using arsenite-oxidizing bacteria. Environmental Pollution 264: 114692
  • Styczynski M., Rogowska A., Gieczewska K., Garstka M., Szakiel A., Dziewit L. (2020). Genome-based insights into the production of carotenoids by Antarctic bacteria, Planococcus ANT_H30 and Rhodococcus sp. ANT_H53B. Molecules 25: 4357
  • Debiec-Andrzejewska K., Krucon T., Piatkowska K., Drewniak L. (2020). Enhancing the plants growth and arsenic uptake from soil using arsenite-oxidizing bacteria. Environmental Pollution 264: 114692.
  • Tuchowska M., Rzepa G., Debiec-Andrzejewska K., Drewniak L., Bajda T. (2019). Immobilization of arsenic compounds by bog iron ores. Desalination and Water Treatment 157: 138-147
  • Dyda, M., Pyzik, A., Wilkojc, E., Kwiatkowska-Kopka, B., Sklodowska, A. (2019) Bacterial and fungal diversity inside the medieval building constructed with sandstone plates and lime mortar as an example of the microbial colonization of a nutrient-limited extreme environment (Wawel royal castle, Krakow, Poland).  Microorganisms, 7 (10), art. no. 416,  DOI: 10.3390/microorganisms7100416
  • Sklodowska, A., Mielnicki, S., Drewniak, L. (2018) Raoultella sp. SM1, a novel iron-reducing and uranium-precipitating strain. Chemosphere, 195, pp. 722-726,
  • Pyzik A., Ciezkowska M., Krawczyk P.S., Sobczak A., Drewniak L., Dziembowski A., Lipinski L. (2018) Comparative analysis of deep sequenced methanogenic communities: identification of microorganisms responsible for methane production. Microbial Cell Factories 17: 197
  • Debiec K., Rzepa G., Bajda T., Uhrynowski W., Sklodowska A., Krzysztoforski J., Drewniak L. (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 K upferschiefer black shale: long‐term laboratory studies. Environmental Microbiology Reports, 9(4), 459-466
  • Uhrynowski W, Debiec K., Sklodowska A., Drewniak L. (2017) The role of dissimilatory arsenate reducing bacteria in the biogeochemical cycle of arsenic based on the physiological and functional analysis of Aeromonas sp. O23A Science of The Total EnvironmentVolume 598, 15 November 2017,  680-689
  • Debiec K., Krzysztoforski J., Uhrynowski W., Sklodowska A., Drewniak L. (2017) Kinetics of arsenite oxidation by Sinorhizobium sp. M14 under changing environmental conditions International Biodeterioration & Biodegradation Volume 119, April 2017, Pages 476-485
  • Wojcieszak M., Pyzik A., Poszytek K., Krawczyk P.S., Sobczak A., Lipinski L., Roubinek O., Palige J., Sklodowska A., Drewniak L. (2017). Adaptation of methanogenic inocula to anaerobic digestion of maize silage. Frontiers in Microbiology 8: 1881
  • Uhrynowski W., Debiec K., Sklodowska A., Drewniak L. (2017). The role of dissimilatory arsenate reducing bacteria in the biogeochemical cycle of arsenic based on the physiological and functional analysis of Aeromonas O23A. Science of the Total Environment 598: 680-689.
  • Drewniak L., Krawczyk P.S., Mielnicki S., Adamska D., Sobczak A., Lipinski L., Burec-Drewniak W., Sklodowska 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., Ciezkowska M., Sklodowska A., Drewniak L. (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 elements mobilization from polymetallic Kupferschiefer black shale (Fore-Sudetic Monocline, Poland). Chemosphere, 122, 273-279
  • Drewniak, L., Stasiuk, R., Uhrynowski, W., Sklodowska, 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 L., Ciezkowska M., Radlinska M., Sklodowska A. (2015). Construction of the recombinant broad-host-range plasmids providing their bacterial hosts arsenic resistance and arsenite oxidation ability. Journal of Biotechnology 196-197: 42-51.
  • Drewniak L., Rajpert L., Mantur A., Sklodowska 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., Sklodowska, A.(2013). Uranium post-mining wastes as a potential reserve source of uranium for nuclear energy plants. Physicochemical Problems of Mineral Processing 2013, 49(1):495-512
  • Drewniak L., Dziewit L., Ciezkowska M., Gawor J., Gromadka R., Sklodowska A. (2013). Structural and functional genomics of plasmid pSinA of Sinorhizobium M14 encoding genes for the arsenite oxidation and arsenic resistance. Journal of Biotechnology 164: 479-488
  • Drewniak L., Matlakowska R., Rewerski B., Sklodowska A. (2010). Arsenic release from gold mine rocks mediated by the activity of indigenous bacteria. Hydrometallurgy 104: 437-442.
  • Drewniak L., Matlakowska R., Sklodowska A. (2009). Microbial impact on arsenic mobilization in Zloty Stok gold mine. Advanced Materials Research 71-73: 121-124.
  • Drewniak L., Matlakowska R., Sklodowska A. (2008). Arsenite and arsenate metabolism of Sinorhizobium M14 living in the extreme environment of the Zloty Stok gold mine. Geomicrobiology Journal 25: 363-370.
  • Drewniak L., Sklodowska A. (2007). Isolation and characterization of a psychrotolerant arsenite-oxidizing bacterium from a gold mine in Zloty Stok, Poland. Advanced Materials Research 20-21: 575.