Méhes Előd

tudományos munkatárs

PhD (Szt. István Egyetem, 2003)

Biográfia:

Előd Méhes earned his MSc in biology in 1996 from Eötvös Loránd University, Budapest followed by a degree in English translation and interpreting in 1997 and an ME degree in biology teaching in 2010, all from Eötvös Loránd University. He earned his PhD from the Graduate School of Veterinary Science of St. István University in 2003.
Since 2006 he has been working as Research Fellow at the Department of Biological Physics. He was member of the COLLMOT Project of Prof. Tamás Vicsek’s EU ERC Advanced Grant (2009-2014). He received Bolyai Research Scholarship of the Hungarian Academy of Sciences (2016-2019).

Research interest: live cell imaging, cell motility, tissue engineering

Tudományos adatbázisok profiloldalai:

• Publikációs lista: MTMT2
• Publikációs lista: ORCID
• Publikációs lista: ResearcherID
• Publikációs lista: Scopus
• Publikációs lista: Google Scholar

Az utolsó 5 év válogatott közleményei:

1. Méhes E, Biri-Kovács B, Isai DG, Gulyás M, Nyitray L, Czirók A. (2019) Matrigel patterning reflects multicellular contractility. PLoS Computational Biology 15(10):e1007431. link
2. Mehes E, Barath M, Gulyas M, Bugyik E, Geiszt M, Szoor A, Lanyi A, Czirok A. (2019) Enhanced endothelial motility and multicellular sprouting is mediated by the scaffold protein TKS4. Scientific Reports 9(1):14363. link
3. Lakatos D, Somfai E, Méhes E, Czirók A. (2018) Soluble VEGFR1 signaling guides vascular patterns into dense branching morphologies. Journal of Theoretical Biology 456, 261-278. link
4. Gulyas M, Csiszer M, Mehes E, Czirok A.(2018) Software tools for cell culture-related 3D printed structures. PloS One 13 (9), e0203203. link
5. Fekete R, Cserép C, Lénárt N, Tóth K, Orsolits B, Martinecz B, Méhes E, Szabó B, Németh V, Gönci B, Sperlágh B, Boldogkői Z, Kittel Á, Baranyi M, Ferenczi S, Kovács K, Szalay G, Rózsa B, Webb C, Kovacs GG, Hortobágyi T, West BL, Környei Z, Dénes Á. (2018) Microglia control the spread of neurotropic virus infection via P2Y12 signalling and recruit monocytes through P2Y12-independent mechanisms. Acta Neuropathologica 136 (3), 461-482. link
6. Czirók A, Varga K, Méhes E, Szabó A. (2013) Collective cell streams in epithelial monolayers depend on cell adhesion. New Journal of Physics 15 (7), 075006. link
7. Méhes E, Mones E, Németh V, Vicsek T. (2012) Collective motion of cells mediates segregation and pattern formation in co-cultures. PLoS One 7 (2), e31711. link
8. Méhes E, Vicsek T. (2013) Segregation mechanisms of tissue cells: from experimental data to models. Complex Adaptive Systems Modeling 1 (1), 4. Review. link
9. Méhes E, Vicsek T. (2014) Collective motion of cells: from experiments to models. Integrative Biology 6 (9), 831-854. Review. link