clibgc.hhu.de
Universität Düsseldorf: Principal Investigators
http://www.clibgc.hhu.de/principal-investigators.html
Back to the Faculty. Members of CLIB-GC Faculty at Düsseldorf University and the partnering Forschungszentrum Jülich. Prof Dr. Michael Bott. Institute of Bio- and Geosciences, IBG-1: Biotechnology, Forschungszentrum Jülich. Institute of Molecular Enzyme Technology. Institute of Bio- and Geosciences, IBG-1: Biotechnology, Forschungszentrum Jülich. Prof Dr. Joachim F. Ernst. Institute of Molecular Mycology. Prof Dr. Michael Feldbrügge. Prof Dr. Holger Gohlke. Prof Dr. Karl-Erich Jaeger. PD Dr Bernd König.
biologie.hhu.de
Universität Düsseldorf: Institute und Abteilungen
http://www.biologie.hhu.de/institute-und-abteilungen.html
Zurück zur Fakultät. Die Institute und Abteilungen der Biologie. Aberle, Hermann, Prof. Dr. Axmann, Ilka Maria, Jun.-Prof. Dr. Bauer, Petra, Prof. Dr. Beller, Mathias, Jun.-Prof. Dr. Beye, Martin, Prof. Dr. Quantitative und Theoretische Biologie. Ebenhöh, Oliver, Jun.-Prof. Dr. Ernst, Joachim, Prof. Dr. Feldbrügge, Michael, Prof. Dr. Fink, Patrick, PD Dr. Groth, Georg, Prof. Dr. Funktionelle Genomforschung der Mikroorganismen. Hegemann, Johannes, Prof. Dr. Heise, Henrike, Prof. Dr. Molekulare Physiologie...
funcompath.eu
University Düsseldorf - funcompath.eu
http://www.funcompath.eu/university-duesseldorf.html
Hans Knöll Institute Jena. Universidad Complutense de Madrid. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. Heinrich Heine University Düsseldorf. Heinrich Heine University Düsseldorf. Universitätsstr. 1/26.12. 40225 Düsseldorf, Germany. 49 211 81 15176. X6A;oachim.ernst@uni-duesseldorf.de. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. Hans Knöll Institute Jena. Universidad Complutense de Madrid.
funcompath.eu
WP 1 FunComPath omics - funcompath.eu
http://www.funcompath.eu/wp1-funcompath-omics.html
WP 1 FunComPath omics. Hans Knöll Institute Jena. Universidad Complutense de Madrid. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. WP 1 Transcriptomics, metagenomics, competitive phenomics and metabolomics. And the potentially probiotic. Karlsson F, Tremaroli V, Nookaew I. 2013) Gut metagenome in European women with normal, impaired and diabetic glucose control. Shoaie S, Karlsson F, Mardinoglu A. Mardinoglu A, Agren R, Kampf C. Karlsson FH, Fåk F, Nookaew I.
funcompath.eu
WP 3 In vivo dissection of FunComPath - funcompath.eu
http://www.funcompath.eu/wp-3-in-vivo-dissection-of-funcompath.html
Hans Knöll Institute Jena. Universidad Complutense de Madrid. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. WP 3 Dissecting the commensal-to-pathogen shift and protection by probiotics. Task 1) and to study how probiotic and commensal bacteria and yeasts can prevent pathogenicity of. Clinical strains in competition experiments and to test their potential to induce the compath shift. Bonhomme J, Chauvel M, Goyard S. Chauvel M, Nesseir A, Cabral V. Identifica...
funcompath.eu
WP 4 Molecular regulation of commensal growth - funcompath.eu
http://www.funcompath.eu/wp4-molecular-regulation-of-commensal-growth.html
WP 4 Molecular regulation of commensal growth. Hans Knöll Institute Jena. Universidad Complutense de Madrid. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. WP 4 Molecular regulation of commensal growth and fungal factors. In WP4, we will investigate factors of. In the gut. We will generate. Strains with conditional, tetracycline-dependent expression of Efg1, Efh1 and Wor1. We will also develop strains that allow. Buerth C, Tielker D, Ernst JF (2016). Stichte...
funcompath.eu
WP 5 Protective yeasts - funcompath.eu
http://www.funcompath.eu/wp5-protective-yeasts.html
WP 5 Protective yeasts. Hans Knöll Institute Jena. Universidad Complutense de Madrid. WP 1 FunComPath omics. WP 4 Molecular regulation of commensal growth. WP 5 Protective yeasts. WP 5 Protective yeasts. We will dissect the protective role of the commensal yeast. Overgrowth and infection. Of note, the genome of this yeast has been sequenced and can be genetically manipulated. This offers the unique possibility to analyze the genetics of both a probiotic yeast and its antagonist. Prieto D, Correia I, Pla ...