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Difference between revisions of "User:Marie-Katherin Zuehlke"

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#Beidler2022 pmid=36411326
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#Zuehlke2024 pmid=38757353
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#Beidler2024 pmid=38744821
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#Beidler2023 pmid=36411326
 
#Dutschei2022 pmid=36217189
 
#Dutschei2022 pmid=36217189
 
#Duerwald2021 pmid=33876569
 
#Duerwald2021 pmid=33876569

Latest revision as of 02:10, 6 September 2024

Portrait Marie Zuehlke klein.jpg

All my life I have been interested in environmental issues and thus studied (micro)biology. My PhD thesis was dedicated to the bacterial transformation of bisphenols, which are released from plastics and disrupt the endocrine system (laboratory Frieder Schauer). I focused on the structural elucidation of produced transformation products and their risk assessment. As a Post Doc, I have expanded this by the perspective of bacterial physiology and the proteins involved in degradation processes. Here, I am investigating the bacterial breakdown of algal sugars using proteomics and by detailed functional analysis of specific proteins. I am based at the University of Greifswald, Germany, and Station Biologique de Roscoff, France (teams Thomas Schweder and Mirjam Czjzek).

Please find me on ResearchGate.

  1. Zühlke MK, Ficko-Blean E, Bartosik D, Terrapon N, Jeudy A, Jam M, Wang F, Welsch N, Dürwald A, Martin LT, Larocque R, Jouanneau D, Eisenack T, Thomas F, Trautwein-Schult A, Teeling H, Becher D, Schweder T, and Czjzek M. (2024). Unveiling the role of novel carbohydrate-binding modules in laminarin interaction of multimodular proteins from marine Bacteroidota during phytoplankton blooms. Environ Microbiol. 2024;26(5):e16624. DOI:10.1111/1462-2920.16624 | PubMed ID:38757353 [Zuehlke2024]
  2. Beidler I, Steinke N, Schulze T, Sidhu C, Bartosik D, Zühlke MK, Martin LT, Krull J, Dutschei T, Ferrero-Bordera B, Rielicke J, Kale V, Sura T, Trautwein-Schult A, Kirstein IV, Wiltshire KH, Teeling H, Becher D, Bengtsson MM, Hehemann JH, Bornscheuer UT, Amann RI, and Schweder T. (2024). Alpha-glucans from bacterial necromass indicate an intra-population loop within the marine carbon cycle. Nat Commun. 2024;15(1):4048. DOI:10.1038/s41467-024-48301-5 | PubMed ID:38744821 [Beidler2024]
  3. Beidler I, Robb CS, Vidal-Melgosa S, Zühlke MK, Bartosik D, Solanki V, Markert S, Becher D, Schweder T, and Hehemann JH. (2023). Marine bacteroidetes use a conserved enzymatic cascade to digest diatom β-mannan. ISME J. 2023;17(2):276-285. DOI:10.1038/s41396-022-01342-4 | PubMed ID:36411326 [Beidler2023]
  4. Dutschei T, Zühlke MK, Welsch N, Eisenack T, Hilkmann M, Krull J, Stühle C, Brott S, Dürwald A, Reisky L, Hehemann JH, Becher D, Schweder T, and Bornscheuer UT. (2022). Metabolic engineering enables Bacillus licheniformis to grow on the marine polysaccharide ulvan. Microb Cell Fact. 2022;21(1):207. DOI:10.1186/s12934-022-01931-0 | PubMed ID:36217189 [Dutschei2022]
  5. Dürwald A, Zühlke MK, Schlüter R, Gebbe R, Bartosik D, Unfried F, Becher D, and Schweder T. (2021). Reaching out in anticipation: bacterial membrane extensions represent a permanent investment in polysaccharide sensing and utilization. Environ Microbiol. 2021;23(6):3149-3163. DOI:10.1111/1462-2920.15537 | PubMed ID:33876569 [Duerwald2021]
  6. Zühlke MK, Schlüter R, Mikolasch A, Henning AK, Giersberg M, Lalk M, Kunze G, Schweder T, Urich T, and Schauer F. (2020). Biotransformation of bisphenol A analogues by the biphenyl-degrading bacterium Cupriavidusbasilensis - a structure-biotransformation relationship. Appl Microbiol Biotechnol. 2020;104(8):3569-3583. DOI:10.1007/s00253-020-10406-4 | PubMed ID:32125477 [Zuehlke2020]
  7. Reisky L, Préchoux A, Zühlke MK, Bäumgen M, Robb CS, Gerlach N, Roret T, Stanetty C, Larocque R, Michel G, Song T, Markert S, Unfried F, Mihovilovic MD, Trautwein-Schult A, Becher D, Schweder T, Bornscheuer UT, and Hehemann JH. (2019). A marine bacterial enzymatic cascade degrades the algal polysaccharide ulvan. Nat Chem Biol. 2019;15(8):803-812. DOI:10.1038/s41589-019-0311-9 | PubMed ID:31285597 [Reisky2019]
  8. Zühlke MK, Schlüter R, Mikolasch A, Zühlke D, Giersberg M, Schindler H, Henning AK, Frenzel H, Hammer E, Lalk M, Bornscheuer UT, Riedel K, Kunze G, and Schauer F. (2017). Biotransformation and reduction of estrogenicity of bisphenol A by the biphenyl-degrading Cupriavidus basilensis. Appl Microbiol Biotechnol. 2017;101(9):3743-3758. DOI:10.1007/s00253-016-8061-z | PubMed ID:28050635 [Zuehlke2017]

  9. Zühlke MK, Schlüter R, Henning AK, Lipka M, Mikolasch A, Schumann P, Giersberg M, Kunze G, Schauer F (2016). A novel mechanism of conjugate formation of bisphenol A and its analogues by Bacillus amyloliquefaciens: Detoxification and reduction of estrogenicity of bisphenols. Int Biodeterior Biodegrad. 2016;109:165-173. DOI: 10.1016/j.ibiod.2016.01.019

    [Zuehlke2016]

All Medline abstracts: PubMed

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