Publications from Münster (since 2014)

Begemann, I., Saha, T., Rathmann, I., Grill, D., Golbach, L., Rasch, C., Ricker, A., Trappmann, B., Matis, M., Gerke, V., Klingauf, J., and Galic, M.  (2019) Mechano-chemical self-organizarion determines search pattern in migratory cells.  Nat Physics (in press). [IF = 22.8]

Viplav, A., Saha, T. Huertas, J., Selenschik, P., Ebrahimkutty, M. P., Grill, D., Lehrich, J. Hentschel, A., Biasizzo, M., Mengoni, S., Ahrends, R., Cojocaru, V., Klingauf, J., and Galic, M.  (2019) ArhGEF37 assists Dynamin2 during clathrin-mediated endocytosis. J Cell Sci (in press). [IF = 4.43]

Singh, A., Saha, T., Begemann, I., Ricker, A., Nüsse, H., Klingauf, J., Galic, M., and Matis, M. (2018)  Polarized Microtubule Dynamics Directs Cell Mechanics and Coordinates Forces during Epithelial Morphogenesis.  Nat Cell Biol, 20,126–1133. [IF = 20.06]

Saha, T., and Galic, M.  (2018)  Self-organization across scales: from molecules to organisms. Phil. Trans. R. Soc. B. DOI 10.1098/rstb/373/1747. [IF = 5.67]

Schürmann, S., Steffes, G., Schulz, P., Bandari, S., Ohlig, S., Ortmann, C., Rebollido-Rios, R., Otto, M, Nüsse, H, Hoffmann, D., Klämbt, C., Galic, M., Klingauf, J., and Grobe, K. (2018) Proteolytic processing of palmitoylated Hedgehog peptides specifies the 3-4 intervein region of the Drosophila wing. eLife 9;7. e33033. [IF = 7.62]

Goudarzi, M., Mildner, K., Begemann, I., Paksa, A., Blaser, H., Stehling, M., Galic, M., Zeuschner, D., and Raz, E.  (2017)  Bleb expansion depends on supply of membrane from cell surface folds and tube-like lipid stores. Dev Cell43(5):577-587. [IF = 9.62]

Saha, T., Rathmann, I., and Galic, M. (2017).  A graphical user interface for automated tracking of protein concentration in dynamic cellular protrusions.  JoVE2017 Jul 11;(125). doi: 10.3791/55653. [IF = 1.33]

Saha, T., Rathmann, I., Viplav, A., Panzade, S., Begemann, I., Rasch, C., Klingauf, J., Matis, M., and Galic, M. (2016).  Automated Correlative Analysis of Growth Dynamics and Spatio-Temporal Protein Concentration in Filopodia.  Mol Biol Cell27(22):3616-3626. [IF = 3.51]

Begemann, I., and Galic, M.(2016).  Correlative Fluorescence Electron Microscopy: Connecting Synaptic Structure and Function. Front Synaptic Neurosci 2016 Aug 23 10.3389/fnsyn.2016.00028. [IF = 3.57]

Reinhard, J., Kriz, A.*, Galic, M.*, Angliker, N., Rajalu, M., Vogt, K., and Ruegg, M.A. (2016).  The Calcium Sensor Copine-6 Regulates Structural Spine Plasticity, Learning and Memory through the Actin Cytoskeleton.  Nat Commun 2016 May 19;7:11613.  * equal contribution [IF = 12.35]

Begemann, I., Viplav, A., Rasch, C., and Galic, M.(2015).  Stochastic Micro-Pattern for Automated Correlative Fluorescence – Scanning Electron Microscopy.  Sci Rep.  2015 5:17973. [IF = 4.12]

Galic, M., and Matis, M. (2015). Polarized trafficking provides spatial cues for planar cell polarization within a tissue.  BioEssays. 2015 Jun;37(6):678-86. [IF = 4.73]

Galic, M.*, Begemann, I., Viplav, A., and Matis, M.*(2014). Force-Control at Cellular Membranes.  BioArchitecture.  2014 May 4;4(4-5):164-8. * co-corresponding author [IF = 1.73]

Galic, M.*, Tsai, F.C., Collins, S.C., Matis, M., Bandara, S.,and Meyer, T.*. (2014). Dynamic Recruitment of ArhGAP44 to Nanoscale Plasma Membrane Deformation Aborts Initiation of Exploratory Dendritic Filopodia in Neurons.  eLife 2014;3:e03116.  * co-corresponding author [IF = 7.62]

Jeong, S., andGalic, M. (2014).  Nanocones to Study Initial Steps of Endocytosis. Methods Mol Biol. 2014;1174:275-84.