Full Name
Thorsten Wohland
Wohland T.
Wohland, Thorsten
Wohland, T.

Results 1-20 of 119 (Search time: 0.008 seconds).

Issue DateTitleAuthor(s)
128-Dec-2010A bioelectronic platform using a graphene-lipid bilayer interfaceAng, P.K. ; Jaiswal, M. ; Lim, C.H.Y.X.; Wang, Y. ; Sankaran, J.; Li, A.; Lim, C.T. ; Wohland, T. ; Barbaros, O. ; Loh, K.P. 
22008A fluorescent sphingolipid binding domain peptide probe interacts with sphingolipids and cholesterol-dependent raft domains[s]Hebbar, S.; Lee, E.; Manna, M.; Steinert, S.; Kraut, R.; Wohland, T. ; Kumar, G.S. ; Wenk, M.R. 
31-May-2008A fluorescent sphingolipid binding domain peptide probe interacts with sphingolipids and cholesterol-dependent raft domains[s]Hebbar, S.; Lee, E.; Manna, M.; Steinert, S.; Kumar, G.S.; Wenk, M.; Wohland, T. ; Kraut, R.
41-Dec-2020A Neurexin2aa deficiency results in axon pathfinding defects and increased anxiety in zebrafishKoh, Angela ; Tao, Shijie ; Goh, Yun Jing ; Chaganty, Vindhya; See, Kelvin; Purushothaman, Kathiresan; Orban, Laszlo; Mathuru, Ajay S; Wohland, Thorsten ; Winkler, Christoph
5Aug-2012A new technology for revealing the flow profile in integrated lab-on-a-chipLiu, T.-C.; Wohland, T. ; Watt, F. ; Bettiol, A. ; Udalagama, C. ; Wang, L.-P.
6Nov-2009A preformed signaling complex mediates GnRH-activated ERK phosphorylation of paxillin and FAK at focal adhesions in LβT2 gonadotrope cellsDobkin-Bekman, M.; Naidich, M.; Rahamim, L.; Przedecki, F.; Almog, T.; Lim, S. ; Melamed, P. ; Liu, P. ; Wohland, T. ; Yao, Z.; Seger, R.; Naor, Z.
716-Apr-2013Accuracy and precision in camera-based fluorescence correlation spectroscopy measurementsSankaran, J.; Bag, N.; Kraut, R.S.; Wohland, T. 
815-Oct-2009Alternate raft pathways cooperate to mediate slow diffusion and efficient uptake of a sphingolipid tracer to degradative and recycling compartmentsZhang, D.; Manna, M.; Wohland, T. ; Kraut, R.
9Mar-2012Analysis of properties of single molecules in vivo or... why small fish is better than empty dishKorzh, V. ; Wohland, T. 
1024-Sep-2018Anosmin1 Shuttles Fgf to Facilitate Its Diffusion, Increase Its Local Concentration, and Induce Sensory OrgansWang, John; Yin, Yandong; Lau, Stephanie; Sankaran, Jagadish ; Rothenberg, Eli; Wohland, Thorsten ; Meier-Schellersheim, Martin; Knaut, Holger
1129-Oct-2009Assessment of the multiphase interaction Between a membrane disrupting peptide and a lipid membraneOlaru, A.; Gheorghiu, M.; David, S.; Wohland, T. ; Gheorghiu, E.
121-May-2012Bayesian approach to the analysis of fluorescence correlation spectroscopy data II: Application to simulated and in vitro dataGuo, S.-M.; He, J.; Monnier, N.; Sun, G.; Wohland, T. ; Bathe, M.
132015Bayesian model selection applied to the analysis of fluorescence correlation spectroscopy data of fluorescent proteins in vitro and in vivoSun, Guangyu; Guo, Syuanming; Teh, Cathleen; Korzh, Vladimir P. ; Bathe, Mark; Wohland T. 
147-Jan-2014Bayesian total internal reflection fluorescence correlation spectroscopy reveals hIAPP-induced plasma membrane domain organization in live cellsGuo, S.-M.; Bag, N.; Mishra, A.; Wohland, T. ; Bathe, M.
152017Binding of canonical Wnt ligands to their receptor complexes occurs in ordered plasma membrane environmentsSezgin, E; Azbazdar, Y; Ng, X.W; Teh, C ; Simons, K; Weidinger, G; Wohland, T ; Eggeling, C; Ozhan, G
166-Aug-2012Calibration and limits of camera-based fluorescence correlation spectroscopy: A supported lipid bilayer studyBag, N.; Sankaran, J.; Paul, A.; Kraut, R.S.; Wohland, T. 
172018CENP-C/H/I/K/M/T/W/N/L and hMis12 but not CENP-S/X participate in complex formation in the nucleoplasm of living human interphase cells outside centromeresHoischen C.; Yavas S.; Wohland T. ; Diekmann S.
182007Characterization of flow direction in microchannels and zebrafish blood vessels by scanning fluorescence correlation spectroscopyPan, X.; Yu, H. ; Wohland, T. ; Shi, X.; Korzh, V. 
192015Characterization of lipid and cell membrane organization by the fluorescence correlation spectroscopy diffusion lawNg, Xue Wen; Nirmalya Bag ; Wohland, Thorsten 
204-Nov-2008Colloidal crystals from surface-tension-assisted self-assembly: A novel matrix for single-molecule experimentsWen, C.Y.; Kannan, B. ; Wohland, T. ; Ng, V.