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Difference between revisions of "User:Maher Abou Hachem"

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I have received my PhD from Lund University in 2003, where I described the first xylan-specific CBM4 from a GH10 thermostable xylanase <cite>AbouHachem2000</cite>I moved to the other side of the Øresund canal to start a post-doc at the Carlsberg Research Center in the laboratory of Professor Birte Svensson in Copenhagen, working on barley α-amylases and other GH13 enzymes. Thereafter, I moved to the Technical University of Denmark, where I am a Professor MSO at the the [https://www.bioengineering.dtu.dk/ Department of Biotechnology and Bioengineering], since 2018. Since 2008, my research has been focused on understanding the protein machinery, especially oligosaccharide transporters, conferring glycan utilisation by members of the human gut microbiota including lactobacilli <cite>TheilmannMC2017</cite>, bifidobacteria <cite>SakanakaMC2019</cite>,<cite>EjbyH2019</cite>, <cite>TheilmannMC2019</cite> and clostridia <cite>LaRosa2019</cite>, <cite>LethML2018</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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* Add your publications in the list below using PubMed IDs and cite them in the text like this <cite>Gilbert2008</cite>.
 
 
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<biblio>
 
<biblio>
#Gilbert2008 pmid=18430603
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#AbouHachem2000 pmid=10600638
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#TheilmannMC2017 pmid=29162708
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#SakanakaMC2019 pmid=31489370
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#TheilmannMC2019 pmid=31186348
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#EjbyH2019 pmid=30947380
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#LethML2018 pmid=29610517
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#LaRosaL2018 pmid=30796211
  
 
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Revision as of 06:34, 7 February 2020

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I have received my PhD from Lund University in 2003, where I described the first xylan-specific CBM4 from a GH10 thermostable xylanase [1]. I moved to the other side of the Øresund canal to start a post-doc at the Carlsberg Research Center in the laboratory of Professor Birte Svensson in Copenhagen, working on barley α-amylases and other GH13 enzymes. Thereafter, I moved to the Technical University of Denmark, where I am a Professor MSO at the the Department of Biotechnology and Bioengineering, since 2018. Since 2008, my research has been focused on understanding the protein machinery, especially oligosaccharide transporters, conferring glycan utilisation by members of the human gut microbiota including lactobacilli [2], bifidobacteria [3],[4], [5] and clostridia [6], [7].


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  1. Abou Hachem M, Nordberg Karlsson E, Bartonek-Roxâ E, Raghothama S, Simpson PJ, Gilbert HJ, Williamson MP, and Holst O. (2000) Carbohydrate-binding modules from a thermostable Rhodothermus marinus xylanase: cloning, expression and binding studies. Biochem J. 345 Pt 1, 53-60. PubMed ID:10600638 | HubMed [AbouHachem2000]
  2. Theilmann MC, Goh YJ, Nielsen KF, Klaenhammer TR, Barrangou R, and Abou Hachem M. (2017) Lactobacillus acidophilus Metabolizes Dietary Plant Glucosides and Externalizes Their Bioactive Phytochemicals. mBio. 8. DOI:10.1128/mBio.01421-17 | PubMed ID:29162708 | HubMed [TheilmannMC2017]
  3. Sakanaka M, Hansen ME, Gotoh A, Katoh T, Yoshida K, Odamaki T, Yachi H, Sugiyama Y, Kurihara S, Hirose J, Urashima T, Xiao JZ, Kitaoka M, Fukiya S, Yokota A, Lo Leggio L, Abou Hachem M, and Katayama T. (2019) Evolutionary adaptation in fucosyllactose uptake systems supports bifidobacteria-infant symbiosis. Sci Adv. 5, eaaw7696. DOI:10.1126/sciadv.aaw7696 | PubMed ID:31489370 | HubMed [SakanakaMC2019]
  4. Ejby M, Guskov A, Pichler MJ, Zanten GC, Schoof E, Saburi W, Slotboom DJ, and Abou Hachem M. (2019) Two binding proteins of the ABC transporter that confers growth of Bifidobacterium animalis subsp. lactis ATCC27673 on β-mannan possess distinct manno-oligosaccharide-binding profiles. Mol Microbiol. 112, 114-130. DOI:10.1111/mmi.14257 | PubMed ID:30947380 | HubMed [EjbyH2019]
  5. Theilmann MC, Fredslund F, Svensson B, Lo Leggio L, and Abou Hachem M. (2019) Substrate preference of an ABC importer corresponds to selective growth on β-(1,6)-galactosides in Bifidobacterium animalis subsp. lactis. J Biol Chem. 294, 11701-11711. DOI:10.1074/jbc.RA119.008843 | PubMed ID:31186348 | HubMed [TheilmannMC2019]
  6. Leth ML, Ejby M, Workman C, Ewald DA, Pedersen SS, Sternberg C, Bahl MI, Licht TR, Aachmann FL, Westereng B, and Abou Hachem M. (2018) Differential bacterial capture and transport preferences facilitate co-growth on dietary xylan in the human gut. Nat Microbiol. 3, 570-580. DOI:10.1038/s41564-018-0132-8 | PubMed ID:29610517 | HubMed [LethML2018]
  7. La Rosa SL, Leth ML, Michalak L, Hansen ME, Pudlo NA, Glowacki R, Pereira G, Workman CT, Arntzen MØ, Pope PB, Martens EC, Hachem MA, and Westereng B. (2019) The human gut Firmicute Roseburia intestinalis is a primary degrader of dietary β-mannans. Nat Commun. 10, 905. DOI:10.1038/s41467-019-08812-y | PubMed ID:30796211 | HubMed [LaRosaL2018]
All Medline abstracts: PubMed | HubMed