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Difference between revisions of "User:Lauren McKee"

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[[Image:LaurenMcKee.jpeg|200px|right]]
 
[[Image:LaurenMcKee.jpeg|200px|right]]
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I hold the position of Researcher with Docent in Biotechnology at the [https://www.kth.se/che/glykovetenskap/division-of-glycoscience-1.785898 KTH Division of Glycoscience] in Stockholm, Sweden. I am principal investigator for the [https://stockholmcazyme.com/ Stockholm CAZyme group]. And, since January 2023, I am a vice-director for a national [https://wwsc.se/wwsc-academy/ PhD Academy] in Sweden, financed by the [https://wwsc.se/ Wallenberg Wood Science Centre] network.
 
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I studied for my Biochemistry BSc, Environmental Biogeochemistry MSc, and Carbohydrate Enzymology PhD in my home town, at Newcastle University, UK. My doctoral research focussed on structure-function analysis of [[GH43]] enzymes <cite>Cartmell2011</cite> <cite>McKee2012</cite> and was supervised by Professor [[User:Harry Gilbert|Harry Gilbert]]. I spent almost two years with Harry at the [https://ccrc.uga.edu/ Complex Carbohydrate Research Centre] at UGA, Georgia, USA. Shortly after completing my PhD, I moved to Stockholm to begin a post-doctoral scholarship position supervised by Professor [[User:Harry Brumer|Harry Brumer]] <cite>Larsbrink2014</cite> <cite>McKee2015</cite>, before he moved to UBC in Canada. When Harry moved, I worked with Prof Vincent Bulone <cite>McKee2016</cite> <cite>Larsbrink2017</cite> until I secured my own independent funding and could begin to run my own team and projects.  
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My main interests are the discovery and characterisation of glycoside hydrolases, glycosyltransferases, polysaccharide utilisation loci <cite>McKee2021</cite> <cite>Lu2023b</cite>, and carbohydrate binding modules (especially family [[CBM92]] <cite>Hao2024</cite>), with a particular focus on environmental bacteria from soil, marine, and industrial ecosystems <cite>McKee2019</cite> <cite>Lu2023a</cite>.
 
 
* 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.
 
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<biblio>
 
<biblio>
#Gilbert2008 pmid=18430603
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#Hao2024 pmid=38653764
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#Lu2023a pmid=37493618
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#Lu2023b pmid=36610032
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#McKee2021 pmid=34036727
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#McKee2019 pmid=30413479
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#Larsbrink2017 pmid=28069559
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#McKee2016 pmid=26734072
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#McKee2015 pmid=26448175
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#Larsbrink2014 pmid=24463512
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#McKee2012 pmid=22492980
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#Cartmell2011 pmid=21339299
  
 
</biblio>
 
</biblio>

Revision as of 05:29, 14 May 2024

LaurenMcKee.jpeg

I hold the position of Researcher with Docent in Biotechnology at the KTH Division of Glycoscience in Stockholm, Sweden. I am principal investigator for the Stockholm CAZyme group. And, since January 2023, I am a vice-director for a national PhD Academy in Sweden, financed by the Wallenberg Wood Science Centre network. I studied for my Biochemistry BSc, Environmental Biogeochemistry MSc, and Carbohydrate Enzymology PhD in my home town, at Newcastle University, UK. My doctoral research focussed on structure-function analysis of GH43 enzymes [1] [2] and was supervised by Professor Harry Gilbert. I spent almost two years with Harry at the Complex Carbohydrate Research Centre at UGA, Georgia, USA. Shortly after completing my PhD, I moved to Stockholm to begin a post-doctoral scholarship position supervised by Professor Harry Brumer [3] [4], before he moved to UBC in Canada. When Harry moved, I worked with Prof Vincent Bulone [5] [6] until I secured my own independent funding and could begin to run my own team and projects. My main interests are the discovery and characterisation of glycoside hydrolases, glycosyltransferases, polysaccharide utilisation loci [7] [8], and carbohydrate binding modules (especially family CBM92 [9]), with a particular focus on environmental bacteria from soil, marine, and industrial ecosystems [10] [11].



  1. Cartmell A, McKee LS, Peña MJ, Larsbrink J, Brumer H, Kaneko S, Ichinose H, Lewis RJ, Viksø-Nielsen A, Gilbert HJ, and Marles-Wright J. (2011). The structure and function of an arabinan-specific alpha-1,2-arabinofuranosidase identified from screening the activities of bacterial GH43 glycoside hydrolases. J Biol Chem. 2011;286(17):15483-95. DOI:10.1074/jbc.M110.215962 | PubMed ID:21339299 [Cartmell2011]
  2. McKee LS, Peña MJ, Rogowski A, Jackson A, Lewis RJ, York WS, Krogh KB, Viksø-Nielsen A, Skjøt M, Gilbert HJ, and Marles-Wright J. (2012). Introducing endo-xylanase activity into an exo-acting arabinofuranosidase that targets side chains. Proc Natl Acad Sci U S A. 2012;109(17):6537-42. DOI:10.1073/pnas.1117686109 | PubMed ID:22492980 [McKee2012]
  3. Larsbrink J, Rogers TE, Hemsworth GR, McKee LS, Tauzin AS, Spadiut O, Klinter S, Pudlo NA, Urs K, Koropatkin NM, Creagh AL, Haynes CA, Kelly AG, Cederholm SN, Davies GJ, Martens EC, and Brumer H. (2014). A discrete genetic locus confers xyloglucan metabolism in select human gut Bacteroidetes. Nature. 2014;506(7489):498-502. DOI:10.1038/nature12907 | PubMed ID:24463512 [Larsbrink2014]
  4. McKee LS and Brumer H. (2015). Growth of Chitinophaga pinensis on Plant Cell Wall Glycans and Characterisation of a Glycoside Hydrolase Family 27 β-l-Arabinopyranosidase Implicated in Arabinogalactan Utilisation. PLoS One. 2015;10(10):e0139932. DOI:10.1371/journal.pone.0139932 | PubMed ID:26448175 [McKee2015]
  5. McKee LS, Sunner H, Anasontzis GE, Toriz G, Gatenholm P, Bulone V, Vilaplana F, and Olsson L. (2016). A GH115 α-glucuronidase from Schizophyllum commune contributes to the synergistic enzymatic deconstruction of softwood glucuronoarabinoxylan. Biotechnol Biofuels. 2016;9:2. DOI:10.1186/s13068-015-0417-6 | PubMed ID:26734072 [McKee2016]
  6. Larsbrink J, Tuveng TR, Pope PB, Bulone V, Eijsink VG, Brumer H, and McKee LS. (2017). Proteomic insights into mannan degradation and protein secretion by the forest floor bacterium Chitinophaga pinensis. J Proteomics. 2017;156:63-74. DOI:10.1016/j.jprot.2017.01.003 | PubMed ID:28069559 [Larsbrink2017]
  7. McKee LS, La Rosa SL, Westereng B, Eijsink VG, Pope PB, and Larsbrink J. (2021). Polysaccharide degradation by the Bacteroidetes: mechanisms and nomenclature. Environ Microbiol Rep. 2021;13(5):559-581. DOI:10.1111/1758-2229.12980 | PubMed ID:34036727 [McKee2021]
  8. Lu Z, Rämgård C, Ergenlioğlu İ, Sandin L, Hammar H, Andersson H, King K, Inman AR, Hao M, Bulone V, and McKee LS. (2023). Multiple enzymatic approaches to hydrolysis of fungal β-glucans by the soil bacterium Chitinophaga pinensis. FEBS J. 2023;290(11):2909-2922. DOI:10.1111/febs.16720 | PubMed ID:36610032 [Lu2023b]
  9. Hao MS, Mazurkewich S, Li H, Kvammen A, Saha S, Koskela S, Inman AR, Nakajima M, Tanaka N, Nakai H, Brändén G, Bulone V, Larsbrink J, and McKee LS. (2024). Structural and biochemical analysis of family 92 carbohydrate-binding modules uncovers multivalent binding to β-glucans. Nat Commun. 2024;15(1):3429. DOI:10.1038/s41467-024-47584-y | PubMed ID:38653764 [Hao2024]
  10. McKee LS, Martínez-Abad A, Ruthes AC, Vilaplana F, and Brumer H. (2019). Focused Metabolism of β-Glucans by the Soil Bacteroidetes Species Chitinophaga pinensis. Appl Environ Microbiol. 2019;85(2). DOI:10.1128/AEM.02231-18 | PubMed ID:30413479 [McKee2019]
  11. Lu Z, Kvammen A, Li H, Hao M, Inman AR, Bulone V, and McKee LS. (2023). A polysaccharide utilization locus from Chitinophaga pinensis simultaneously targets chitin and β-glucans found in fungal cell walls. mSphere. 2023;8(4):e0024423. DOI:10.1128/msphere.00244-23 | PubMed ID:37493618 [Lu2023a]

All Medline abstracts: PubMed