Válogatott publikációk

  1. Farsang R, Kovács N, Szigeti M, Jankovics H, Vonderviszt F, Guttman A (2022) Immobilized exoglycosidase matrix mediated solid phase glycan sequencing. Analytica Chimica Acta 1215:339906.
  2. Jankovics H, Szekér P, Tóth É, Kakasi B, Lábadi Z, Saftics A, Kalas B, Fried M, Petrik P, Vonderviszt F. (2021) Flagellin-based electrochemical sensing layer for arsenic detection in water. Scienctific Reports 11:3497.
  3. Reider B, Gacsi E, Jankovics H, Vonderviszt F, Szarvas T, Guttman A, Jarvas G (2021) Integrated workflow for urinary prostate specific antigen N-glycosylation analysis using sdAb partitioning and downstream capillary electrophoresis separation. Analytica Chimica Acta 1184:338892.
  4. Jankovics H, Kovacs B, Saftics A, Gerecsei T, Tóth É, Szekacs I, Vonderviszt F, Horvath R (2020) Grating-coupled interferometry reveals binding kinetics and affinities of Ni ions to genetically engineered protein layers. Scientific Reports 10:22253.
  5. Labadi Z, Kalas B, Saftics A, Illes L, Jankovics H, Bereczk-Tompa E, Sebestyen A, Toth E, Kakasi B, Moldovan C, Firtat B, Gartner M, Gheorge M, Vonderviszt F, Fried M, Petrik P (2020) Sensing Layer for Ni Detection in Water Created by Immobilization of Bioengineered Flagellar Nanotubes on Gold Surfaces. ACS Biomaterials Science & Engineering 6: 3800-3820.
  6. Klein A, Kovács M, Muskotál A, Jankovics H, Tóth B, Pósfai M, Vonderviszt F (2018) Nanobody-displaying flagellar nanotubes.  Rep.8, 3584.
  7. Bereczk-Tompa É, Vonderviszt F, Horváth B, Szalai I, Pósfai M (2017) Biotemplated synthesis of magnetic filaments. Nanoscale9, 15062-15070.
  8. Kovacs B, Patko D, Szekacs I, Orgovan N, Kurunczi S, Sulyok A, Khanh NQ, Toth B, Vonderviszt F, Horvath R (2016) Flagellin based biomimetic coatings: From cell-repellent surfaces to highly adhesive coatings. Acta Biomaterialia42, 66-76.
  9. Bereczk-Tompa E, Pósfai M, Tóth B, Vonderviszt F (2016) Magnetite-binding flagellar filaments displaying the MamI loop motif. ChemBioChem17, 2075-2082.
  10. Sajó R, Tőke O, Hajdú I, Jankovics H, Micsonai A, Dobó J, Kardos J, Vonderviszt F (2016) Structural plasticity of the Salmonella FliS flagellar export chaperone. FEBS Letters590, 1103-1113.
  11. Klein A, Szabo V, Kovacs M, Patko D, Toth B, Vonderviszt F (2015) Xylan-Degrading Catalytic Flagellar Nanorods.  Biotech57, 814-819.
  12. Sajó R, Liliom K, Muskotál A, Klein Á, Závodszky P, Vonderviszt F, Dobó J (2014) Soluble components of the flagellar export apparatus FliI, FliJ and FliH, do not deliver flagellin, the major filament protein, from the cytosol to the export gate. Biochim Biophys. Acta – Mol. Cell Res.1843, 2414-2423.
  13. Kovács N, Patkó D, Orgován N, Kurunczi S, Ramsden JJ, Vonderviszt F, Horváth R (2013) Optical anisotropy of flagellin layers: in situ and label-free measurement of adsorbed protein orientations using OWLS.  Chem.85, 5382-5387.
  14. Dobó J, Varga J, Sajó R, Végh BM, Gál P, Závodszky P, Vonderviszt F (2009) Application of a short, disordered N-terminal flagellin segment, a fully functional flagellar type III export signal, to expression of secreted proteins. Appl Env Microbiol76, 891-899.
  15. Gál, P., Végh, B., Závodszky, P. & Vonderviszt, F. (2006) Export signals.  Biotech.24, 900-901.
  16. Samatey, F., Imada, K., Nagashima, S., Vonderviszt, F., Kumasaka, T., Yamamoto, M. & Namba, K. (2001) Structure of the bacterial flagellar protofilament and implications for a switch with sub-A precision. Nature 410, 331-337.
  17. Yonekura, K., Maki, S., Morgan, D.G., DeRosier, D.J., Vonderviszt, F., Imada, K., Namba K. (2000) The bacterial flagellar cap as the rotary promoter of flagellin self-assembly. Science 290, 2148-2152.
  18. Namba K, Vonderviszt F (1997) Molecular architecture of the bacterial flagellum.  Rev. Biophys.30, 1-65.