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Difference between revisions of "User:Daniel Kracher"

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(Created page with "200px|right '''This is an empty template to help you get started with composing your User page.''' You should begin by opening this page for ed...")
 
 
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'''This is an empty template to help you get started with composing your User page.'''
 
  
You should begin by opening this page for editing by clicking on the Edit tab above.  Your biography goes in this area of the page.
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[[Image:DKracher.png|150px|right]]
  
* See [[User:Gerlind_Sulzenbacher]] for an example.  You may copy text from this example by opening the page in another browser window and clicking the "Edit" tab.
 
* Add your publications in the list below using PubMed IDs and cite them in the text like this <cite>Gilbert2008</cite>.
 
* Please upload a picture of yourself using the "Upload file" link in the Toolbox section of the left menu, and then replace the Image filename with your own.
 
  
''More specific help on these steps is available from the links under the "For contributors" section of the left page menu.''
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I was born and raised in the south of Austria (Styria) but moved to Vienna to study Food and Biotechnology at the [http://www.boku.ac.at BOKU University].
  
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My academic journey led me to achieve a Master's and Ph.D. degree in the group of [[User:Roland Ludwig|Roland Ludwig]] [http://www.ludwiglab.at/ (-> link)], where I focused on the investigation of fungal redox-enzymes and their application in biocatalysis and biorefinery processes <cite>Kracher2014 Kracher2013</cite>. During my research, I studied the kinetics and electron transfer reactions of fungal cellobiose dehydrogenases (CDH), which play a vital role in lignocellulose degradation <cite>Kracher2012 Kracher2015 Kracher2015b Ma2017</cite>.
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The activation of lytic polysaccharide monooxygenases by CDH later became a central point of my research <cite>Kracher2016 Kracher2018</cite>.
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In 2018, I had the exciting opportunity to join the [http://www.mib.ac.uk/ Manchester Institute of Biotechnology (MIB)] as part of [http://www.sites.google.com/site/scruttonlab/home Prof. Nigel Scrutton`s] dynamic research group where I studied how protein motions govern electron transfer reactions <cite>Kracher2020</cite>.
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Since 2020, I occupy the position of a University Assistant at the [https://www.tugraz.at/institute/imbt/home Institute of Molecular Biotechnology (IMBT)] at the Graz University of Technology (Graz, Austria). I`m a BioTechMed-Graz-funded research group leader focusing on CAZymes that play a crucial role in host-pathogen interactions. In addition, I´m actively involved in the engineering of biomass-converting enzymes. I enjoy being part of a talented team around Prof. Robert Kourist at IMBT and contributing to cutting-edge research in the field of molecular biotechnology and enzymology. 
  
  
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<biblio>
 
<biblio>
#Gilbert2008 pmid=18430603
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#Kracher2012 pmid=22729546
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#Kracher2013 pmid=24211370
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#Kracher2014 pmid=24677771
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#Kracher2015 pmid=25913436
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#Kracher2015b pmid=26151670
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#Ma2017 pmid=28245812
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#Kracher2016 pmid=27127235
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#Kracher2018 pmid=29259126
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#Kracher2020 pmid=32382450
  
 
</biblio>
 
</biblio>

Latest revision as of 05:54, 4 August 2023

DKracher.png


I was born and raised in the south of Austria (Styria) but moved to Vienna to study Food and Biotechnology at the BOKU University.

My academic journey led me to achieve a Master's and Ph.D. degree in the group of Roland Ludwig (-> link), where I focused on the investigation of fungal redox-enzymes and their application in biocatalysis and biorefinery processes [1, 2]. During my research, I studied the kinetics and electron transfer reactions of fungal cellobiose dehydrogenases (CDH), which play a vital role in lignocellulose degradation [3, 4, 5, 6].

The activation of lytic polysaccharide monooxygenases by CDH later became a central point of my research [7, 8].

In 2018, I had the exciting opportunity to join the Manchester Institute of Biotechnology (MIB) as part of Prof. Nigel Scrutton`s dynamic research group where I studied how protein motions govern electron transfer reactions [9].

Since 2020, I occupy the position of a University Assistant at the Institute of Molecular Biotechnology (IMBT) at the Graz University of Technology (Graz, Austria). I`m a BioTechMed-Graz-funded research group leader focusing on CAZymes that play a crucial role in host-pathogen interactions. In addition, I´m actively involved in the engineering of biomass-converting enzymes. I enjoy being part of a talented team around Prof. Robert Kourist at IMBT and contributing to cutting-edge research in the field of molecular biotechnology and enzymology.



  1. Kracher D, Oros D, Yao W, Preims M, Rezic I, Haltrich D, Rezic T, and Ludwig R. (2014). Fungal secretomes enhance sugar beet pulp hydrolysis. Biotechnol J. 2014;9(4):483-92. DOI:10.1002/biot.201300214 | PubMed ID:24677771 [Kracher2014]
  2. Mulla D, Kracher D, Ludwig R, Nagy G, Grandits M, Holzer W, Saber Y, Gabra N, Viernstein H, and Unger FM. (2013). Azido derivatives of cellobiose: oxidation at C1 with cellobiose dehydrogenase from Sclerotium rolfsii. Carbohydr Res. 2013;382:86-94. DOI:10.1016/j.carres.2013.09.004 | PubMed ID:24211370 [Kracher2013]
  3. Sygmund C, Kracher D, Scheiblbrandner S, Zahma K, Felice AK, Harreither W, Kittl R, and Ludwig R. (2012). Characterization of the two Neurospora crassa cellobiose dehydrogenases and their connection to oxidative cellulose degradation. Appl Environ Microbiol. 2012;78(17):6161-71. DOI:10.1128/AEM.01503-12 | PubMed ID:22729546 [Kracher2012]
  4. Kracher D, Zahma K, Schulz C, Sygmund C, Gorton L, and Ludwig R. (2015). Inter-domain electron transfer in cellobiose dehydrogenase: modulation by pH and divalent cations. FEBS J. 2015;282(16):3136-48. DOI:10.1111/febs.13310 | PubMed ID:25913436 [Kracher2015]
  5. Tan TC, Kracher D, Gandini R, Sygmund C, Kittl R, Haltrich D, Hällberg BM, Ludwig R, and Divne C. (2015). Structural basis for cellobiose dehydrogenase action during oxidative cellulose degradation. Nat Commun. 2015;6:7542. DOI:10.1038/ncomms8542 | PubMed ID:26151670 [Kracher2015b]
  6. Ma S, Preims M, Piumi F, Kappel L, Seiboth B, Record E, Kracher D, and Ludwig R. (2017). Molecular and catalytic properties of fungal extracellular cellobiose dehydrogenase produced in prokaryotic and eukaryotic expression systems. Microb Cell Fact. 2017;16(1):37. DOI:10.1186/s12934-017-0653-5 | PubMed ID:28245812 [Ma2017]
  7. Kracher D, Scheiblbrandner S, Felice AK, Breslmayr E, Preims M, Ludwicka K, Haltrich D, Eijsink VG, and Ludwig R. (2016). Extracellular electron transfer systems fuel cellulose oxidative degradation. Science. 2016;352(6289):1098-101. DOI:10.1126/science.aaf3165 | PubMed ID:27127235 [Kracher2016]
  8. Kracher D, Andlar M, Furtmüller PG, and Ludwig R. (2018). Active-site copper reduction promotes substrate binding of fungal lytic polysaccharide monooxygenase and reduces stability. J Biol Chem. 2018;293(5):1676-1687. DOI:10.1074/jbc.RA117.000109 | PubMed ID:29259126 [Kracher2018]
  9. Breslmayr E, Laurent CVFP, Scheiblbrandner S, Jerkovic A, Heyes DJ, Oostenbrink C, Ludwig R, Hedison TM, Scrutton NS, and Kracher D. (2020). Protein Conformational Change Is Essential for Reductive Activation of Lytic Polysaccharide Monooxygenase by Cellobiose Dehydrogenase. ACS Catal. 2020;10(9):4842-4853. DOI:10.1021/acscatal.0c00754 | PubMed ID:32382450 [Kracher2020]

All Medline abstracts: PubMed