Dr. Florian Lenz

Post-Doc

© Dziemba












 

Kontakt

Institut für Pharmazeutische und Medizinische Chemie
Corrensstr. 48
D-48149 Münster

Tel. (0251) 83 32206
Fax. (0251) 83 32211

Raum Nr. A.110.106

E-Mail

 

Current Research Topic:

Surface display of cellulases for degradation of cellulose with whole cell biocatalysis

Teaching:

5. Semester Biochemie

Papers:

  • Gercke D, Lenz F, Jose J (2023) Split-GFP complementation at the bacterial cell surface for antibody-free labeling and quantification of heterologous protein display, Enzyme Microb Technol, 174:110391
    https://doi.org/10.1016/j.enzmictec.2023.110391, IF: 3.4
  • Lenz F, Zurek P, Umlauf M, Tozakidis IEP, Jose J (2020) Tailor-made β-glucosidase with increased activity at lower temperature without loss of stability and glucose tolerance, Green Chem, 22:2234-2243.
    https://doi.org/10.1039/C9GC04166D, IF: 11.034
  • Tozakidis IEP, Brossette T, Lenz F, Maas R, Jose J (2016) Proof of concept for the simplified breakdown of cellulose by combining Pseudomonas putida strains with surface displayed thermophilic endocellulase, exocellulase and ß-glucosidase, Microb Cell Fact, 15:103.
    https://doi.org/10.1186/s12934-016-0505-8, IF: 6.352
Poster:
  • Lenz F, Zurek P, Umlauf M, Tozakidis IEP, Jose J (2023) Protein engineering of a surface displayed thermophilic β-glucosidase. Protein Evolution Meeting Münster (PEMM), 03.-05.07.2023
  • Lenz F, Zurek P, Umlauf M, Tozakidis IEP, Jose J (2020) Evolution of a Thermophilic Bacterial β Glucosidase towards Increased Activity at Reduced Temperature and Unchanged Stability. GSCB 2020- German Conference on Synthetic Biology - The 4th GASB, 24. & 25.09.2020 Poster number 1
  • Lenz F, Zurek P, Umlauf M, Tozakidis IEP, Jose J (2019) Pseudomonas putida as host for protein engineering of a surface presented, thermophilic ß-glucosidase. 2. Pseudomonas Grassroots Meeting in Leiden, 07.-08.11.2019. PGM-2 06
  • Gesing K, Lenz F, Tozakidis IEP, Jose J (2018) Semi-rational protein engineering to improve the activity of surface displayed exocellulase CelK. 69. Mosbacher Kolloqium - "Synthetic Biology - from Understanding to Application". Mosbach, 22.-24.3.2018. BM23.
  • Lenz F, Siemer S, Tozakidis IEP, Maas R, Jose J (2018) Metabolic engineering for heterologous ethanol production by Pseudomonas putida. 69. Mosbacher Kolloqium "Synthetic Biology - from understanding to application", Mosbach, 22.-24.3.2018. EQ08.
  • Tozakidis IEP, Schulte MF, Pupkes H, Lenz F, Maas R, Jose J (2017) Lignocellulose degradation with surface displayed enzymes on Pseudomonas putida. The European Summit of Industrial Biotechnology, Graz, Austria, 14.-16.11.2017. P63
  • Lenz F, Tozakidis IEP, Brossette T, Maas RM, Jose J (2017) Using Pseudomonas putida with surface displayed cellulases as whole cell biocatalyst for degradation of lignocellulosic biomass. 4th Summerschool Biotransformations, Hannover, 16.-19.7.2017. P27
  • Lenz F, Tozakidis IEP, Jose J (2016) Surface display of cellulases in ethanol producing bacterium Zymobacter palmae. 17th European Congress on Biotechnology, Kraków, Poland, 3.-6.7.2016. P7-3
  • Tozakidis IEP, Brossette T, Lenz F, Maas R, Jose J (2016) Combining Pseudomonas putida strains with surface displayed thermophilic endocellulase, exocellulase and ß-glucosidase for the cost-efficient breakdown of cellulose. 17th European Congress on Biotechnology, Kraków, Poland


Oral Presentations:

  • Lenz F, Tozakidis I, Maas R, Jose J (2018) Saccharification of lignocellulosic biomass by Pseudomonas putida with surface displayed cellulases Pseudomonas Grassroots Meeting, Frankfurt, 08.-09.11.2018