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Researcher
Johan Robben
- Disciplines:Biochemistry and metabolism, Systems biology, Medical biochemistry and metabolism
Affiliations
- Biochemistry, Molecular and Structural Biology (Division)
Member
From1 Oct 2007 → Today
Projects
1 - 7 of 7
- Computational design of PolyOxoMetalates scaffolding proteinsFrom1 Sep 2017 → 12 Dec 2023Funding: FWO Strategic Basic Research Grant, BOF - Doctoral projects
- In vivo monitoring of DNA modification. Redesign of an E. coli DNA repair protein for sensing specific DNA modifications.From1 Oct 2016 → 21 Sep 2021Funding: FWO fellowships
- Nieuwe polymerasen voor de synthese van xylo-nucleïnezurenFrom1 Jan 2014 → 10 Apr 2019Funding: IWT personal funding - strategic basic research grants
- Development of artificial systems to mimic cellular structures and functionsFrom1 Mar 2013 → 29 May 2020Funding: Own budget, for example: patrimony, inscription fees, gifts
- Molecular evolution of polymerases towards accepting synthetic nucleotides with non-pyrophosphate leaving groups.From1 Oct 2012 → 13 Dec 2017Funding: IWT personal funding - strategic basic research grants
- Xeno-nucleic acid polymerases by directed evolution.From1 Oct 2010 → 4 Nov 2015Funding: FWO fellowships
- Polymerases for synthetic nucleic acids.From1 Oct 2010 → 30 Sep 2014Funding: BOF - Concerted Research Project from 1994
Publications
1 - 10 of 36
- Rational Design and Functionalization of an Artificial Scaffold Protein for Synthetic Biochemistry(2023)
Authors: Staf Wouters, Arnout Voet, Johan Robben
- Application of Deep Sequencing in Phage Display(2023)
Authors: Vincent Van Deuren, Sander Plessers, Rob Lavigne, Johan Robben
Pages: 333 - 345 - High-Throughput Sequencing of Phage Display Libraries Reveals Parasitic Enrichment of Indel Mutants Caused by Amplification Bias(2021)
Authors: Sander Plessers, Vincent Van Deuren, Rob Lavigne, Johan Robben
- Structural determinants of nucleobase modification recognition in the AlkB family of dioxygenases(2020)
Authors: Vincent Van Deuren, Sander Plessers, Johan Robben
- Development of artificial systems to mimic cellular structures and functions(2020)
- Molecular evolution of polymerases for the synthesis of deoxyxylose-based nucleic acids(2019)
Authors: Boris Bauwens, Johan Robben
- Understanding the interactome of laterally acquired proteins in Escherichia coli and Salmonella Typhimurium(2018)
Authors: Oscar Enrique Torres Montaguth, Abram Aertsen, Johan Robben
- A Single Amino Acid Substitution in Therminator DNA Polymerase Increases Incorporation Efficiency of Deoxyxylonucleotides(2018)
Authors: Boris Bauwens, Jef Rozenski, Piet Herdewyn, Johan Robben
Pages: 2410 - 2420 - Molecular evolution of a thermoresistant DNA polymerase towards nucleotides with modified leaving group ,,(2017)
Authors: Yves Peeters, Johan Robben
- Polyoxometalates as artificial nucleases: hydrolytic cleavage of DNA promoted by a highly negatively charged ZrIV-substituted Keggin polyanion(2016)
Authors: Thi Kim Nga Luong, Johan Robben, Tatjana Vogt
Pages: 617 - 620